page 1/47
LIST OF CITATIONS APPEARED IN 2017
ON SCIENTIFIC PAPERS BY THE MEMBERS OF
Laboratory “Theory of Elementary Particles”
Institute for Nuclear Research and Nuclear Energy, Bulgarian Academy of Sciences
TOTAL NUMBER OF CITATIONS: 562
1976
1. Dobrev, V.K., Mack, G., Petkova, V..B., Petrova, S. G., Todorov, I.T.. On the Clebsch - Gordan expansion
for the Lorentz group in n dimensions. Rep. Math. Phys., 9, 1976, ISSN:ISSN: 0034-4877, 219-246. ISI
IF:0.904
Cited in в:
1. F. Gliozzi, Anomalous dimensions of spinning operators from conformal symmetry,
arXiv:1711.05530, @2017
2. Dobrev, V.K., Petkova, V.B., Petrova, S.G., Todorov, I.T.. Dynamical derivation of vacuum operator
product expansion in Euclidean conformal quantum field theory. Phys. Rev. D, 13, 1976, 887-912. ISI
IF:4.643
Cited in в:
2. J. Murugan, D. Stanford, E. Witten, More on Supersymmetric and 2d Analogs of the SYK
Model, JHEP 8 (2017) 146, @2017
3. D. Simmons-Duffin, D. Stanford, E. Witten, A spacetime derivation of the Lorentzian OPE
inversion formula arXiv:1711.03816 [hep-th]., @2017
4. V.N. Zaikin, Secondary fields and partial wave expansion. Self consistency conditions in a
conformal model, arXiv:1711.00272 [hep-th]., @2017
5. M. Fukuda, N. Kobayashi, T. Nishioka, Operator product expansion for conformal defects,
arXiv:1710.11165 [hep-th]., @2017
6. Sh. Prakash, R. Sinha A Complex fermionic tensor model in d dimensions arXiv:1710.09357
[hep-th]., @2017
7. Ch. Sleight, M. Taronna, Feynman rules for higher-spin gauge fields on AdS$_{d+1}$,
arXiv:1708.08668 [hep-th], @2017
8. S. Giombi, Ch. Sleight, M. Taronna, Spinning AdS Loop Diagrams: Two Point Functions,
arXiv:1708.08404 [hep-th, @2017
9. A. Dymarsky, F. Kos, P. Kravchuk, D. Poland, D. Simmons-Duffin, The 3d Stress-Tensor
Bootstrap, arXiv:1708.05718 [hep-th]., @2017
10. M.S. Costa, T. Hansen, J. Penedones, Bounds for OPE coefficients on the Regge trajectory
JHEP 10 (2017) 197, @2017
11. E. Trevisani, Bootstrapping Conformal Field Theories, {\b PhD thesis} (2017), Universidade
do Porto, Portugal., @2017
12. D. Karateev, P. Kravchuk, D. Simmons-Duffin, Weight Shifting Operators and Conformal
Blocks, arXiv:1706.07813 [hep-th]., @2017
13. K. Roumpedakis, Leading Order Anomalous Dimensions at the Wilson-Fisher Fixed Point from
CFT, JHEP 7 (2017) 109, @2017
page 2/47
14. M. Hogervorst, Crossing kernels for boundary and crosscap CFTs arXiv:1703.08159 [hep-
th]., @2017
15. M. Lemos, P. Liendo, M. Meineri, S. Sarkar, Universality at large transverse spin in defect CFT
, arXiv:1712.08185 [hep-th] ., @2017
16. S. Giombi, TASI Lectures on the Higher Spin - CFT duality, TASI Lectures Boulder, Colorado
2015, "New frontiers in fields and strings", Proc. eds. J. Polchinski, P. Vieira, O. DeWolfe
(2017) p. 137-214 p. 137-214, , @2017
17. C.~Sleight, Interactions in Higher-Spin Gravity: a Holographic Perspective, '' {\bf PhD thesis}
(2016), Ludwig–Maximilians–Universitet, Munchen, J. PHys. A , Math. and Theor. 50 92017)
383001, @2017
18. S. Giombi, V. Gurucharan, V. Kirilin, S. Prakash, E. Skvortsov, On the Higher-Spin Spectrum
in Large N Chern-Simons Vector Models, JHEP 01 (2017) 058, @2017
19. J. Penedones, TASI lectures on AdS/CFT, TASI Lectures Boulder, Colorado 2015, "New
frontiers in fields and strings", Proc. eds. J. Polchinski, P. Vieira, O. DeWolfe (2017) p. 75-
136, @2017
20. M. Gillioz, X. Lu and M. A. Luty, ` Scale Anomalies, States, and Rates in Conformal Field
Theory, JHEP 04 (2017) 171, @2017
21. S. Giombi, V. Kirilin, E. Skvortsov, Notes on Spinning Operators in Fermionic CFT , JHEP 05
(2017) 041, @2017
22. Ch. Sleight, M. Taronna, "Spinning Witten Diagrams", JHEP 06 (2017) 100, , @2017
23. M. Hogervorst, B.C. van Rees, "Crossing Symmetry in Alpha Space" JHEP 11 (2017)
193., @2017
24. R.~de Mello Koch, P.~Rabambi, R.~Rabe and S.~Ramgoolam, "Free quantum fields in 4D and
Calabi-Yau spaces", Phys. Rev. Lett. 119, 161602 (2017), , @2017
25. R.~de Mello Koch, P.~Rabambi, R.~Rabe and S.~Ramgoolam, "Counting and construction of
holomorphic primary fields in free CFT4 from rings of functions on Calabi-Yau orbifolds",
JHEP 08 (2017) 077, @2017
26. A.~Dymarsky, J.~Penedones, E.~Trevisani and A.~Vichi, "Charting the space of 3D CFTs with
a continuous global symmetry", arXiv:1705.04278 [hep-th], @2017
3. Nissimov, E., Kulish, P.. Conservation Laws in Sine-Gordon and Massive Thirring Models. Letters to
J.E.T.P. (Письма в Ж.Э.Т.Ф.), 24, Russian Academy of Sciences, 1976, ISSN:0370-274X, 247-250. ISI
IF:1.524
Cited in в:
27. H.Babujian, A. Foerster, M. Karowski, J. Phys. A: Math. Theor. 50 (2017) 334003, @2017
1977
4. Dobrev, V.K., Mack, G., Petkova, V.B., Petrova, S.G., Todorov, I.T.. Harmonic Analysis on the n -
Dimensional Lorentz Group and Its Applications to Conformal Quantum Field Theory. Lecture Notes in
Physics, 63, Springer Verlag, Berlin-Heidelberg-New York, 1977, ISBN:978-3-540-08150-X,
DOI:10.1007/BFb0009678, 280
Cited in в:
28. D. Anninos, F. Denef, R. Monten, Z. Sun, Higher Spin de Sitter Hilbert Space
arXiv:1711.10037, @2017
page 3/47
29. M.~Isachenkov and V.~Schomerus, ``Integrability of Conformal Blocks I: Calogero-
Sutherland Scattering Theory, '' arXiv:1711.06609 [hep-th]., @2017
30. D. Grabner, N. Gromov, V. Kazakov, G. Korchemsky, Strongly $\gamma$-deformed N = 4
SYM as an integrable CFT, arXiv:1711.04786 [hep-th], @2017
31. D. Simmons-Duffin, D. Stanford, E. Witten, A spacetime derivation of the Lorentzian OPE
inversion formula arXiv:1711.03816 [hep-th]., @2017
32. V.~Schomerus and E.~Sobko, From Spinning Conformal Blocks to Matrix Calogero-
Sutherland Models, ' arXiv:1711.02022 [hep-th], @2017
33. J. Mashford, Second quantized quantum field theory based on invariance properties of locally
conformally flat space-times, arXiv:1709.09226, @2017
34. P. Moylan, Localization and the Weyl algebras, Phys. of Atomic Nuclei 80 iss. 3 (2017) 590–
597., @2017
35. D. Karateev, P. Kravchuk, D. Simmons-Duffin, Weight Shifting Operators and Conformal
Blocks, arXiv:1706.07813 [hep-th], @2017
36. J. Murugan, D. Stanford, E. Witten, More on Supersymmetric and 2d Analogs of the SYK
Model, JHEP 8 (2017) 146, @2017
37. Th. Basile, X. Bekaert, N. Boulanger, Mixed-symmetry fields in de Sitter space: a group
theoretical glance, JHEP 05 (2017)081, @2017
38. E. Trevisani, Bootstrapping Conformal Field Theories, {\b PhD thesis} (2017), Universidade
do Porto, Portugal., @2017
39. Ch. Sleight, M. Taronna, Spinning Witten Diagrams, JHEP 06 (2017) 100, , @2017
40. M. Hogervorst, B.C. van Rees, Crossing Symmetry in Alpha Space, JHEP 11 (2017)
193., @2017
41. S. Ohya, Intertwining Operator in Thermal CFTd, Int. J. Mod. Phys. A 32 (2017)
1750006, @2017
42. C.~Sleight, Interactions in Higher-Spin Gravity: a Holographic Perspective, '' J. PHys. A , Math.
and Theor. 50 (2017) 383001, , @2017
43. V. Schomerus, E. Sobko and M. Isachenkov, Harmony of Spinning Conformal Blocks, JHEP
03 (2017) 085 , @2017
1978
5. Todorov, I.T., Mintchev, M. C., Petkova, V.B.. Conformal invariance in quantum field theory}. Scuola
Normale Superiore di Pisa, Pisa, Italy, Edizioni Della Normale, 1978, ISBN:ISBN-13: 978-88-7642, 273
Cited in в:
44. Th. Basile, X. Bekaert, N. Boulanger, Mixed-symmetry fields in de Sitter space: a group
theoretical glance, JHEP 05 (2017) 081, @2017
45. S. Ohya, Intertwining Operator in Thermal CFTd, Int. J. Mod. Phys. A 32 (2017)
1750006, @2017
6. Nissimov, E., Pacheva, S., Arefeva, I., Kulish, P.. Infinite Set of Conservation Laws of the Quantum Chiral
Field in Two-Dimensional Space-Time. LOMI Sci. report E-I-1978, Scientific Reports Series of Leningrad
(St.Peterburg) Branch of Steklov Mathematical Institute, 1978
Cited in в:
page 4/47
46. H.Babujian, A.Foerster, M.Karowski, "Form factors of the O(6) Gross Neveu-model",
arxiv:1703.05973, @2017
47. H.Babujian, A. Foerster, M. Karowski, J. Phys. A: Math. Theor. 50 (2017) 334003, @2017
1979
7. Mack, G., Petkova, V.B.. Comparison of lattice gauge theories with gauge groups Z_2 and SU(2). Ann.
Phys., 123, 2, 1979, ISSN:ISSN: 0003-4916, DOI:doi:10.1016/0003-4916(79)90346-4, 442-467.
SJR:1.622, ISI IF:2.103
Cited in в:
48. L.E. Oxman, H. Reinhardt, Effective theory of the D = 3 center vortex ensemble,
arXiv:1712.08056 [hep-th]., @2017
49. L.E. Oxman, D. Vercauteren, Exploring center vortices in SU(2) and SU(3) relativistic Yang-
Mills-Higgs models, Phys. Rev. D 95 (2017), 025001, @2017
50. A. Ahmadi, S. Rafibakhsh, Three Quark Static Potential in the Thick Center Vortex Model, Int.
J. Theor. Phys. 56 (2017) 2038-2051, @2017
51. L. E. Oxman, $SU(N) \to Z(N)$ dual superconductor models: the magnetic loop ensemble point
of view, EPJ Web Conf. 137 (2017) 03015., @2017
52. M Faber, R Höllwieser, Chiral symmetry breaking on the lattice, Prog. in Part. and Nucl. Phys.
97 ( 2017) 312-355, @2017
53. D. Trewartha, W. Kamleh, D. Leinweber, Centre vortex removal restores chiral symmetry, J.
Phys. G: Nucl. Part. Phys. 44 125002, arXiv:1708.06789 [hep-lat], @2017
54. R. Höllwieser, Center Vortices and Topological Charge, Conference: C17-05-07.3 ,
arXiv:1706.06436, @2017
55. M. Faber, Gerald Jordan, Roman Höllwieser , Topology, Center Vortices, Confinement and
Chiral Symmetry Breaking in SU(2) Lattice-QCD, Conference (2017) C07-05-03, p.27-37
Proceedings., @2017
56. S. Mohsen, H, Nejad, M. Faber Colorful vortex intersections in SU(2) lattice gauge theory and
their influencs on chiral properties, JHEP 9 (2017) 068, @2017
1980
8. Mack, G., Petkova, V.B.. Sufficient condition for confinement of static quarks by a vortex condensation
mechanism. 125, 1980, ISSN:0003-4916, 117-134. SJR:1.622, ISI IF:2.103
Cited in в:
57. L.E. Oxman, D. Vercauteren, Exploring center vortices in SU(2) and SU(3) relativistic Yang-
Mills-Higgs models, Phys. Rev. D 95 (2017), 025001, @2017
58. HA. Vogt, Strongly Coupled Theories in Lattice Coulomb Gauge, PhD thesis (2017) Univ.
Tuebingren, @2017
59. A. Ahmadi, S. Rafibakhsh, Three Quark Static Potential in the Thick Center Vortex Model, Int.
J. Theor. Phys. 56 (2017) 2038-2051, @2017
60. L. E. Oxman, SU(N) \to Z(N) dual superconductor models: the magnetic loop ensemble point
of view, EPJ Web Conf. 137 (2017) 03015, @2017
page 5/47
9. Nissimov, E., Pacheva, S., Arefeva, I. BPHZL Renormalization of 1/N Expansion and Critical Behavior
of the Three-Dimensional Chiral Field. Communications in Mathematical Physics, 71, Springer, 1980, 213-
246. ISI IF:1.971
Cited in в:
61. L. Ibiapina Bevilaqua, A.C. Lehum, A.J. da Silva, "Supersymmetry breaking in the two-
dimensional nonlinear sigma model", arxiv:1712.07586, @2017
1981
10. Dobrev, V.K., Ganchev, A.Ch.. Conformal operators from spinor fields : the antisymmetric tensor case.
JINR Dubna preprint, 1981, E2-82-881
Cited in в:
62. K.S. Diab, "Aspects of higher-spin conformal field theories and their renormalization group
flows", PhD Dissertation, Princeton University, Adviser: Juan Maldacena, September
2017., @2017
11. Stoyanov, D.T., Hadjiivanov, L.K.. Theory of Wightman functions in the Thirring model. Theoretical and
Mathematical Physics, 46, 3, Kluwer Academic Publishers - Plenum Publishers, 1981, ISSN:Print: 0040-
5779, Online: 1573-9333, DOI:10.1007/BF01032733, 236-242. ISI IF:0.831
Cited in в:
63. Bahns D., Fredenhagen K. , Rejzner K.: Local nets of von Neumann algebras in the sine-Gordon
model, arXiv:1712.02844[math-ph], @2017
1982
12. Dobrev, V.K., Ganchev, A.Ch., Yordanov, O.I.. Conformal operators from spinor fields : the symmetric
tensor case. Phys. Lett. B, 119, 1982, 372-376. SJR:3.2, ISI IF:6.131
Cited in в:
64. KS Diab, "Aspects of higher-spin conformal field theories and their renormalization group
flows", PhD Dissertation, Princeton University, Adviser: Juan Maldacena, September
2017., @2017
65. V. Alba, "Aspects of scale invariance in Physics and Biology", PhD Dissertation, Princeton
University, Advisers: William Bialek and Juan Maldacena, September 2017., @2017
1984
13. Kyuldjiev, A V. Searching for effects of neutrino magnetic moments at reactors and accelerators. Nuclear
Physics B, 243, 3, Elsevier, 1984, ISSN:ISSN 0550-3213, DOI:10.1016/0550-3213(84)90482-6, 387-397.
SJR:2.062, ISI IF:4.327
Cited in в:
66. Johannes Maria René Welter "Phenomenology of Neutrino Magnetic Moments" Heidelberg
University, Germany, @2017
1985
page 6/47
14. Petkova, V.B., Sotkov, G.M., Todorov, I.T.. Conformal gauges and renormalized equations of motion in
massless QED. Communications in Mathematical Physics, 97, 1985, ISSN:0010-3616, 227-256. ISI
IF:2.086
Cited in в:
67. K. Diab, Aspects of higher-spin conformal field theories and their renormalization group flows,
PhD thesis (2017), Princeton, USA., @2017
15. Dobrev, V.K., Petkova, V.B.. All positive energy unitary irreducible representations of extended
conformal supersymmetry. Phys. Lett. B, 162, 1985, 127-132. SJR:3.2, ISI IF:6.131
Cited in в:
68. S.P. Milián, Supermultiplet of $\beta$-deformations from twistors, Int.J. of Mod.Phys. 32 iss.
26 (2017) 1750157, @2017
69. P.S. Howe, U. Lindström, "Super-Laplacians and their symmetries", JHEP 05 (2017)
119, @2017
70. M. Günaydin, D. Volin, The complete unitary dual of non-compact Lie superalgebra su(p, q|m)
via the generalised oscillator formalism, and non-compact Young diagrams, arXiv:1712.01811
[math-ph], @2017
71. M. Nishida, Aspects of the gauge/gravity correspondence : holographic superconductor and
geodesic Witten diagram, PhD thesis (2017) Osaka Univ. Japan., @2017
72. Y. Lu, On the classification of rank-1 four dimensional $N = 2$ superconformal theory, PhD
thesis (2017) Univ. of Cincinnati , USA., @2017
73. C. Marboe, The AdS/CFT spectrum via integrability-based algorithms, PhD thesis (2017),
School of Mathematics, Trinity College Dublin, @2017
74. D. Mazac, Explorations in the Conformal Bootstrap, PhD thesis (2017) University of Waterloo,
Ontario, Canada, @2017
75. F. Aprile, J.M. Drummond, P. Heslop, H. Paul, Unmixing Supergravity, arXiv:1706.08456
[hep-th]., @2017
76. Th.A. Ryttov, R. Shrock, Scheme-Independent Calculations of Physical Quantities in an N =
1N1 Supersymmetric Gauge Theory , Phys. Rev. D 96 (2017) 105018, @2017
77. S. Hellerman, Sh. Maeda, M. Watanabe, Operator Dimensions from Moduli, JHEP 10 (2017)
089, @2017
78. M. Buican, Z. Laczko, T. Nishinaka, N = 2 S-duality revisited, JHEP 9 (2017) 087, @2017
79. N. Bobev, E. Lauria, D. Mazac, Superconformal Blocks for SCFTs with Eight Supercharges,
JHEP 7 (2017) 061, @2017
80. M. Buican, T. Nishinaka, On Irregular Singularity Wave Functions and Superconformal
Indices, JHEP 09 (2017) 066, @2017
81. M. Cornagliotto, M. Lemos, V. Schomerus, Long Multiplet Bootstrap, JHEP 10 (2017)
119, @2017
82. D. Li, D. Meltzer and A. Stergiou, Bootstrapping mixed correlators in 4D $\mathcal{N} = 1$
SCFTs, JHEP 07 (2017) 029, @2017
83. C. Marboe, D. Volin, The full spectrum of AdS5/CFT4 I: Representation theory and one-loop
Q-system, arXiv:1701.03704, @2017
84. M. Lemos, P. Liendo, C. Meneghelli, V. Mitev, "Bootstrapping N = 3 superconformal theories",
JHEP 04 (2017) 032, @2017
page 7/47
85. A. Alldridge, "Fr\'echet globalisations of Harish-Chandra supermodules", Math. Res. Not.
IMRN 17 (2017), 5182-5232., @2017
16. Craigie, N.S., Dobrev, V.K., Todorov, I.T.. Conformally covariant composite operators in quantum
chromodynamics,. Ann. Phys. (N.Y.), 159, Elsevier Academic Press, 1985, ISSN:0003-4916,
DOI:10.1016/0003-4916(85)90118-6, 411-444. ISI IF:2.375
Cited in в:
86. E.D. Skvortsov, ``On (Un)Broken Higher-Spin Symmetry in Vector Models, '' in: Higher Spin
Gauge Theories, (World Sci, 2017) pp. 103-137., @2017
87. A.A. Tseytlin, "Scattering Via Conformal Higher Spin Exchanges", in: Higher Spin Gauge
Theories, eds. L. Brink, M. Henneaux, M.A. Vasiliev, (World Sci, 2017) pp. 39-50., @2017
88. S.M. Kuzenko, R. Manvelyan and S. Theisen, ̀ `Off-shell superconformal higher spin multiplets
in four dimensions, '' JHEP 07 (2017) 034., @2017
89. S. Giombi, V. Kirilin, E. Skvortsov, Notes on Spinning Operators in Fermionic CFT, JHEP 05
(2017) 041, @2017
90. M. Beccaria and A.A. Tseytlin, ``On induced action for conformal higher spins in curved
background, '' Nucl. Phys. {\bf B919} (2017) 359-383, @2017
91. D.J. Gross and V. Rosenhaus, `The Bulk Dual of SYK: Cubic Couplings, '' JHEP 05 (2017)
092, @2017
92. E. Sezgin, E.D. Skvortsov and Y. Zhu, ``Chern-Simons Matter Theories and Higher Spin
Gravity, '' JHEP 07 (2017) 133., @2017
93. R. Bonezzi, N. Boulanger, D. De Filippi and P. Sundell, ``Noncommutative Wilson lines in
higher-spin theory and correlation functions of conserved currents for free conformal fields, ''
J.Phys. A50 (2017) 475401., @2017
94. R. Bonezzi, ``Induced Action for Conformal Higher Spins from Worldline Path Integrals, ''
Universe 3 (2017) no.3, 64., @2017
95. Y. Neiman, ``The holographic dual of the Penrose transform, '' arXiv:1709.08050 [hep-
th]., @2017
96. S. Giombi, ``TASI Lectures on the Higher Spin - CFT duality, '' TASI Lectures Boulder,
Colorado 2015, "New frontiers in fields and strings", Proc. eds. J. Polchinski, P. Vieira, O.
DeWolfe (2017) p. 137-214., @2017
97. S. Giombi, V. Gurucharan, V. Kirilin, S. Prakash and E. Skvortsov, ``On the Higher-Spin
Spectrum in Large N Chern-Simons Vector Models, '' JHEP 01 (2017) 058, @2017
17. Dobrev, V.K., Petkova, V.B.. On the group-theoretical approach to extended conformal supersymmetry :
classification of multiplets. Lett. Math. Phys., 9, 1985, 287-298. SJR:1.034, ISI IF:1.939
Cited in в:
98. P. Banerjee, P.K. Dhani, M. Mahakhud, V. Ravindran, S. Seth, Finite remainders of Konishi at
two loops in N = 4 SYM, JHEP 5 (2017) 085, @2017
99. N. Bobev, E. Lauria, D. Mazac, Superconformal Blocks for SCFTs with Eight Supercharges,
JHEP 7 (2017) 061, @2017
100. S. Hellerman, Sh. Maeda, M. Watanabe, Operator Dimensions from Moduli, JHEP 10 (2017)
089, @2017
101. M. Günaydin, D. Volin, The complete unitary dual of non-compact Lie superalgebra su(p, q|m)
via the generalised oscillator formalism, and non-compact Young diagrams, arXiv:1712.01811
[math-ph] ., @2017
page 8/47
102. C. Marboe, The AdS/CFT spectrum via integrability-based algorithms, PhD thesis (2017),
School of Mathematics, Trinity College Dublin, @2017
103. D. Mazac, Explorations in the Conformal Bootstrap, PhD thesis, University of Waterloo,
Ontario, Canada, 2017, @2017
1986
18. Dobrev, V.K., Petkova, V.B.. All positive energy unitary irreducible representations of the extended
conformal superalgebra;. Lecture Notes in Physics, 261, Springer, 1986, ISBN:978-3-662-14482-4,
ISSN:0075-8450, 300-308
Cited in в:
104. A. Alldridge, "Fr\'echet globalisations ofHarish-Chandra supermodules", Math. Res. Not.
IMRN 17 (2017), 5182-5232., @2017
19. Dobrev, V.K., Petkova, V.B.. Reducible representations of the extended conformal superalgebra and
invariant differential operators. Lecture Notes in Physics, 261, Springer-Verlag, Berlin, 1986, ISBN:978-3-
540-47219-3, ISSN:0075-8450, DOI:10.1007/3-540-17163-0, 291-299
Cited in в:
105. D. Mazac, Explorations in the Conformal Bootstrap, PhD thesis, University of Waterloo,
Ontario, Canada, 2017., @2017
1987
20. Dobrev, V.K.. Characters of the unitarizable highest weight modules over the N=2 superconformal
algebras,. Phys. Lett. B, 186, 1987, 43-51. SJR:3.2, ISI IF:6.131
Cited in в:
106. M.C.N. Cheng, F. Ferrari, S.M. Harrison and N.M. Paquette, ``Landau-Ginzburg Orbifolds and
Symmetries of K3 CFTs, '' JHEP 01 (2017) 046, @2017
107. Y. Satoh, Y. Sugawara and T. Uetoko, ``Non-supersymmetric D-branes with Vanishing
Cylinder Amplitudes in Asymmetric Orbifolds, '' JHEP 08 (2017) 082, @2017
108. F. Ferrari and S.M. Harrison, ``Properties of extremal CFTs with small central charge, ''
arXiv:1710.10563 [hep-th]., @2017
109. M. Stanishkov, ``Symmetries in Two Dimensional Conformal Field Theories and Related
Integrable Models, '' arXiv:1711.00392 [hep-th], @2017
110. Y. H. Lin, S. H. Shao, Y. Wang and X. Yin, ``(2, 2) Superconformal Bootstrap in Two
Dimensions, '' JHEP 05 (2017) 112, @2017
21. Dobrev, V.K., Petkova, V.B.. On the group-theoretical approach to extended conformal supersymmetry :
function space realizations and invariant differential operators. Fortschr. d. Phys., 35, 1987, 537-572. ISI
IF:2.442
Cited in в:
111. D. Mazac, Explorations in the Conformal Bootstrap, {\bf PhD thesis} (2017) University of
Waterloo, Ontario, Canada., @2017
112. N. Bobev, E. Lauria, D. Mazac, Superconformal Blocks for SCFTs with Eight Supercharges,
JHEP 7 (2017) 061, @2017
page 9/47
113. P.S. Howe, U. Lindström, Super-Laplacians and their symmetries, JHEP 05 (2017)
119, @2017
114. A. Alldridge, "Fr\'echet globalisations ofHarish-Chandra supermodules", Math. Res. Not.
IMRN 17 (2017), 5182-5232., @2017
1988
22. Petkova, V.B.. Two-dimensional (half-) integer spin conformal theories with central charge c. Int. J. Mod.
Phys. A, 03, 12, 1988, ISSN:0217-751X, DOI:https://doi.org/10.1142/S0217751X88001235, 2945-2958.
SJR:1.06
Cited in в:
115. M. Stanishkov, Symmetries in Two Dimensional Conformal Field Theories and Related
Integrable Models, Thesis Dr.Sci., arXiv:1711.00392., @2017
23. Dobrev, V.K.. Canonical construction of intertwining differential operators associated with representations
of real semisimple Lie groups. Rept. Math. Phys., 25, 1988, 159-181. SJR:0.387, ISI IF:0.871
Cited in в:
116. N. Aizawa, "Generalization of Superalgebras to Color Superalgebras and Their
Representations", arXiv:1712.03008 [math-ph], @2017
117. F. Alshammari, P.S. Isaac, I. Marquette "A differential operator realisation approach for
constructing Casimir operators of non-semisimple Lie algebras", arXiv:1706.09970 [math-
ph], @2017
1989
24. Ganchev, A.Ch., Petkova, V.B. U_q(sl(2)) invariant operators and minimal theories fusion matrices. Phys.
Lett. B, 233, 3-4, 1989, ISSN:0370-2693, DOI:https://doi.org/10.1016/0370-2693(89)91326-9, 374-382.
SJR:3.309, ISI IF:4.327
Cited in в:
118. L. Hadjiivanov, P. Furlan, Quantum groups as generalized gauge symmetries in WZNW
models. Part I. The classical model, Phys.Part.Nucl. 48 (2017) no.4, 509-563, @2017
1990
25. Furlan, P., Ganchev, A. Ch., Petkova, V.B.. Fusion matrices and c < 1 (quasi) local conformal theories.
Int. J. Mod. Phys. A, 05, 14, World Scientific, 1990, ISSN:0217-751X, 2721-2735. ISI IF:1.699
Cited in в:
119. C. Behan , The unitary subsector of generalized minimal models, arXiv:1712.06622., @2017
26. Nissimov, E., Pacheva, S., Aratyn, H., Zimerman, A. H.. Symplectic Actions on Coadjoint Orbits. Physics
Letters B, 240, Elsevier, 1990, ISSN:0370-2693, 127-132. ISI IF:4.807
Cited in в:
120. G.Barnich, H.Gonzalez, P. Salgado-Rebolledo, "Geometric actions for three-dimensional
gravity", arXiv:1707.08887, @2017
page 10/47
1991
27. Dobrev, V.K., Sezgin, E.. Spectrum and Character Formulae of $so(3,2)$ Unitary Representations. Lecture
Notes in Physics, 379, Springer, 1991, ISSN:0075-8450, 227-238
Cited in в:
121. R.S. Maier, "Associated Legendre Functions and Spherical Harmonics of Fractional Degree
and Order", arXiv:1702.08555 [math.CA]., @2017
1993
28. Furlan, P., Ganchev, A.Ch., Paunov, R., Petkova, V.B.. Solutions of the Knizhnik - Zamolodchikov
equation with rational isospins and the reduction to the minimal models. Nucl.Phys. B, B 394, 1993,
ISSN:0550-3213, 665-706. ISI IF:3.929
Cited in в:
122. M. Aganagic, E. Frenkel, A. Okounkov, Quantum q-Langlands Correspondence, :
arXiv:1701.03146 [hep-th], @2017
29. Dobrev, V.K., Parashar, P. Duality for multiparametric quantum GL(n). J. Phys. A, 26, IOP Publishing,
1993, ISSN:1751-8121, 6991-7002. ISI IF:1.933
Cited in в:
123. Yanmin Yang, Haitao Ma, Zhu-Jun Zheng, "Schur-Weyl duality for U$_{v, t}$(sl$_n$)",
arXiv:1701.06262 [math.QA]., @2017
1994
30. Palev, T.D., Stoilova, N.I., Van der Jeugt, J.. Finite-Dimensional Representations of the Quantum
Superalgebra $U_q[gl(n/m)]$ and related q-identities. Comm. Math. Phys., 166, 367, 1994, ISI IF:1.971
Cited in в:
124. H. Zhang, Asymptotic representations of quantum affine superalgebras, SIGMA 13 (2017),
066, 25 pages, @2017
125. Ying Xu and R.B. Zhang, Vertex operator representations of quantum affine superalgebras,
arXiv:1707.09140 [math.QA], @2017
126. D.V. Bulgakova, A.M. Kiselev, I.Yu. Tipunin, Bimodule structure of the mixed tensor product
over $U_q sl(2|1)$ and quantum walled Brauer algebra, arXiv:1704.08921 [math.QA], @2017
31. Dobrev, V.K., Moylan, P. Induced representations and invariant integral operators for SU(2,2). Fort. d.
Physik, 42, 4, Wiley-VCH, 1994, ISSN:1521-3978, DOI:10.1002/prop.2190420403, 339-392. ISI IF:2.434
Cited in в:
127. Pei Dang, Hua Liu, Tao Qian, Hilbert Transformation and rSpin(n)+Rn Group,
arXiv:1711.04519 [math.CV]., @2017
1996
page 11/47
32. Dobrev, V.K., Doebner, H.-D., Mrugalla, C.. A q-Schr\"odinger algebra, its lowest weight representations
and generalized q-deformed heat/Schr\"odinger equations. J. Phys. A, 29, IOP, 1996, 5909-5918. ISI
IF:1.583
Cited in в:
128. Yan-an Cai, Yongsheng Cheng, Genqiang Liu, "Simple weight modules over the quantum
Schr\"odinger algebra", arXiv:1704.01393 [math.RT], @2017
129. Yang, Y., Tang, X., "Derivations of the Schrödinger algebra and their applications", J. Appl.
Math. Comput. (2017)., @2017
1997
33. Nissimov, E., Pacheva, S., Aratyn, H.. Constrained KP Hierarchies: Additional Symmetries, Darboux-
Backlund Solutions and Relations to Multi-Matrix Models. International Journal of Modern Physics A, 12,
World Scientific, 1997, ISSN:0217-751X, 1265-1340. ISI IF:1.699
Cited in в:
130. Xu GAO, Chuan Zhong LI, Jing Song HE, Acta Mathematica Sinica 33 (2017) 1578–
1586, @2017
34. P. Furlan, A.Ch. Ganchev, V.B. Petkova. A_1^{(1)} admissible representations --fusion transformations
and local correlators,. Nucl. Phys. B, 491, 3, 1997, ISSN:0550-3213, DOI:https://doi.org/10.1016/S0550-
3213(97)00038-2, 635-658. SJR:2.475, ISI IF:3.531
Cited in в:
131. D. Ridout, J. Snadden , S. Wood, An admissible level $\hat{osp}(1|2)$ -model: modular
transformations and the Verlinde formula, arXiv:1705.04006 [hep-th]., @2017
35. Dobrev, V.K., Doebner, H.-D., Mrugalla, C.. Lowest weight representations of the Schr\"odinger algebra
and generalized heat equations. Rept. Math. Phys., 39, 1997, 201-218. SJR:0.387, ISI IF:0.871
Cited in в:
132. Yan-an Cai, Yongsheng Cheng, Genqiang Liu, "Simple weight modules over the quantum
Schr\"odinger algebra", arXiv:1704.01393 [math.RT]., @2017
133. F. Alshammari, P.S. Isaac, I. Marquette "A differential operator realisation approach for
constructing Casimir operators of non-semisimple Lie algebras", arXiv:1706.09970 [math-
ph]., @2017
134. Yang, Y. , Tang, X., "Derivations of the Schrödinger algebra and their applications", J. Appl.
Math. Comput. (2017)., @2017
36. Palev, T.D., Stoilova, N.I.. Many-body Wigner quantum systems. Journ. Math. Phys., 38, 2506-2523,
1997, ISI IF:1.296
Cited in в:
135. Hendrik De Bie, Roy Oste and J. Van der Jeugt, On the algebra of symmetries of Laplace and
Dirac operators, arXiv:1701.05760., @2017
1998
page 12/47
37. Leader, E., Sidorov, A. V., Stamenov, D. B.. NLO QCD analysis of polarized deep inelastic scattering. Int.
J. Mod. Phys. A, 13, 1998, ISSN:0217-751X, 5573-5592. ISI IF:1.699
Cited in в:
136. A.I. Signal, "Re-examining valence quark spin distributions". Phys. Rev. D95 (2017) no.11,
114010., @2017
137. Hamzeh Khanpour, Sara Taheri Monfared, S. Atashbar Tehrani, "Nucleon spin structure
functions at NNLO in the presence of target mass corrections and higher twist effects". Phys.
Rev. D95 (2017) no.7, 074006., @2017
138. H. Khanpour, S. Taheri Monfared, S. Atashbar Tehrani, "Study of spin-dependent structure
functions of 3He and 3H at NNLO approximation and corresponding nuclear corrections."
Phys. Rev. D96 (2017) no.7, 074037., @2017
38. Behrend, R.E., Pearce, P.A., Petkova, V.B., Zuber, J.-B.. On the classification of bulk and boundary
conformal field theories. Physics Letters B, B 444, 1998, ISSN:0370-2693, 163-166. SJR:3.2, ISI IF:6.131
Cited in в:
139. A. Poghosyan, N. Izmailian, R. Kenna, Exact solution of the critical Ising model with special
toroidal boundary conditions, Phys. Rev. E 96 (2017) 062127, @2017
140. M. Hogervorst, Crossing kernels for boundary and crosscap CFTs arXiv:1703.08159 [hep-
th]., @2017
141. I. Makabe, G.M. T. Watts, Defects in the Tri-critical Ising model, JHEP 9 (2017) 013., @2017
39. Nissimov, E., Pacheva, S., Aratyn, H.. A New "Dual" Symmetry Structure of the KP Hierarchy. Physics
Letters A, 244, Elsevier, 1998, ISSN:0375-9601, 245-255. ISI IF:1.683
Cited in в:
142. Yao Yuqin, Huang Yehui, Wei Yuan, "The new differential-difference KP hierarchy with two
time series and its N-soliton solutions", Advances in Mathematical Physics, Manuscript
Number 4532472 (2017), @2017
1999
40. Cappelli, A., Georgiev, L. S., Todorov, I. T.. A unified conformal field theory approach to paired quantum
Hall states. Commun. Math. Phys., 205, Springer-Verlag, 1999, ISSN:0010-3616,
DOI:doi:10.1007/s002200050693, 657-689. ISI IF:1.901
Cited in в:
143. Hadjiivanov, L., Furlan, P., "Quantum groups as generalized gauge symmetries in WZNW
models. Part I. The classical model", PHYSICS OF PARTICLES AND NUCLEI, Volume: 48,
Issue: 4, Pages: 509-563, @2017
144. Hansson, TH, Hermanns, M., Simon, SH, Viefers, SF, "Quantum Hall physics: Hierarchies and
conformal field theory techniques", REVIEWS OF MODERN PHYSICS, Volume: 89, Issue:
2, Article Number: 025005, @2017
41. Dobrev, V.K., El Falaki, M.. Quantum group U_q(A_\ell) singular vectors in Poincare-Birkhoff-Witt basis.
Lett. Math. Phys., 49, 1999, 47-57. ISI IF:1.939
Cited in в:
page 13/47
145. Wei Xiao, "Differential-operator representations of Weyl group and singular vectors",
arXiv:1703.01098 [math.RT], @2017
42. Nissimov, E., Pacheva, S., Aratyn, H.. Supersymmetric KP Hierarchy: "Ghost" Symmetry Structure,
Reductions and Darboux-Backlund Solutions. Journal of Mathematical Physics, 40, American Institute of
Physics, 1999, ISSN:0022-2488, 2922-2932. ISI IF:1.243
Cited in в:
146. R.Ge, Ch.Li, Int. J. Mod. Phys. 28 (2017) 1750084, @2017
147. Sixing Tao, Yunling Ma "Nonlinear Super Integrable Couplings of Super Yang Hierarchy and
Its Super Hamiltonian Structures", Journal of Applied Mathematics and Physics, 2017, 5, 792-
800, @2017
43. Dobrev, V.K.. Intertwining operator realization of the AdS/CFT correspondence. Nucl. Phys. B, 553, 1999,
559-582. SJR:2.062, ISI IF:3.929
Cited in в:
148. S. Ohya, ``Intertwining Operator in Thermal CFT$_{d}$, '' Int. J. Mod. Phys. {\bf A32} (2017)
1750006., @2017
149. D. Kabat and G. Lifschytz, ``Local bulk physics from intersecting modular Hamiltonians, ''
JHEP 06 (2017) 120, @2017
150. S. Giombi, C. Sleight and M. Taronna, ``Spinning AdS Loop Diagrams: Two Point Functions,
'' arXiv:1708.08404 [hep-th], @2017
151. L. Krizka \& P. Somberg, "Conformal Galilei algebras, symmetric polynomials and singular
vectors", Lett. Math. Phys., {\bf 107} (2017) 1-44, @2017
152. F. Alshammari, P.S. Isaac, I. Marquette "A differential operator realisation approach for
constructing Casimir operators of non-semisimple Lie algebras", arXiv:1706.09970 [math-
ph]., @2017
153. T. Basile, X. Bekaert and N. Boulanger, ``Mixed-symmetry fields in de Sitter space: a group
theoretical glance, '' JHEP 1705 (2017) 081, @2017
2000
44. Leader, E., Sidorov, A. V,, Stamenov, D. B.. On the sensitivity of the polarized parton densities to flavor
SU(3) symmetry breaking. Phys. Lett. B, 488, 2000, ISSN:0370-2693, DOI:10.1016/S0370-
2693(00)00895-9., 283-288. ISI IF:4.327
Cited in в:
154. Daniele S. M. Alves, Neal Weiner, "A viable QCD axion in the MeV mass range".
arXiv:1710.03764 [hep-ph], 54 pp., @2017
45. Petkova, V.B., Zuber, J.-B.. BCFT: from the boundary to the bulk. JHEP proceedings, PRHEP-tmr
2000/038, 2000
Cited in в:
155. J. Belletête, A. M. Gainutdinov, J. L. Jacobsen, H. Saleur, R. Vasseur, , On the correspondence
between boundary and bulk lattice models and (logarithmic) conformal field theories, J. Phys.
A 50 n.48 (2017), arXiv:1705.07769 [hep-th], @2017
page 14/47
46. Behrend, R.E., Pearce, P.A., Petkova, V.B., Zuber, J.-B.. Boundary conditions in rational conformal field
theories. Nuclear Physics B, B 579, 2000, ISSN:0550-3213, 707-773. SJR:2.062, ISI IF:3.929
Cited in в:
156. B. Le Floch, G. J. Turiaci, AGT/Z_2 , JHEP 12 (2017) 099., @2017
157. Bo Han, A. Tiwari, Ch.-T. Hsieh, Sh. Ryu, Boundary conformal field theory and symmetry
protected topological phases in 2+1 dimensions, Phys. Rev. B 96 (2017) iss. 12 art. 125105,
arXiv:1704.01193 [cond-mat.str-el], @2017
158. A. Poghosyan, N. Izmailian, R. Kenna, Exact solution of the critical Ising model with special
toroidal boundary conditions, Phys. Rev. E 96 (2017) 062127., @2017
159. A. Konechny, RG boundaries and interfaces in Ising field theory, J.Phys. A -Math. and Theor.
v. 50 iss. 14 (2017) art. 145403, @2017
160. M. Hogervorst, Crossing kernels for boundary and crosscap CFTs arXiv:1703.08159 [hep-
th]., @2017
161. I. Makabe, G.M. T. Watts, Defects in the Tri-critical Ising model, JHEP 9 (2017) 013., @2017
2001
47. Petkova, V.B., Zuber, J.-B.. Conformal Boundary Conditions and what they teach us. Non-Perturbative
QFT Methods and their Applications}, Proceedings of the 24th Johns Hopkins Workshop, Bolyai College,
Budapest, World Scientific, 2001, 1-35
Cited in в:
162. D. Jaud, Topological defects in conformal field theories, entanglement entropy and Indices,
PhD thesis (2017) , Univ. Muenchen, @2017
163. J. Cardy, Bulk Renormalization Group Flows and Boundary States in Conformal Field
Theories, SciPost Phys. 3, 011 (2017), arXiv:1706.01568v4, @2017
164. M. Hogervorst, Crossing kernels for boundary and crosscap CFTs arXiv:1703.08159 [hep-
th]., @2017
48. Petkova, V.B., Zuber, J.-B.. Generalised twisted partition functions. Physics Letters B, B 504, 2001,
ISSN:0370-2693, 157-164. SJR:3.2, ISI IF:6.131
Cited in в:
165. A. Poghosyan, N. Izmailian, R. Kenna, Exact solution of the critical Ising model with special
toroidal boundary conditions, Phys. Rev. E 96, (2017) 062127., @2017
166. Yu. Satoh, Yu. Sugawara, Lie algebra lattices and strings on T-folds, JHEP 2 (2017)
024., @2017
167. I. Makabe, G.M.T. Watts, The reflection coefficient for minimal model conformal defects from
perturbation theory, arXiv:1712.07234., @2017
168. X. Wen, Yu. Wang, Sh. Ryu, Entanglement evolution across a conformal interface
arXiv:1711.02126 [cond-mat.str-el], @2017
169. N. Bultinck, R. Vanhove, J. Haegeman, F. Verstraete, Global anomaly detection in two-
dimensional symmetry-protected topological phases, arXiv:1710.02314, @2017
170. D. Jaud, Topological defects in conformal field theories, entanglement entropy and Indices,
PhD thesis, (2017) , Univ. Muenchen, @2017
171. I. Makabe, G.M. T. Watts, Defects in the Tri-critical Ising model, JHEP 9 (2017) 013., @2017
page 15/47
172. Y. Jiang, Entanglement Entropy in Integrable Field Theories with Line Defects I. Topological
Defect, JHEP 7 (2017) 127, @2017
173. M. Gutperle, J.D. Miller, Entanglement entropy at CFT junctions, PR D95 (2017) 106008,
arXiv:1701.08856 [hep-th], @2017
174. M. Buican, A. Gromov, Anyonic Chains, Topological Defects, and Conformal Field Theory,
Comm. Math. Phys. 356 (2017) 107-1056, @2017
49. Petkova, V.B., Zuber, J.-B.. The many faces of Ocneanu cells. Nuclear Physics B, B 603, 2001, ISSN:0550-
3213, 449-496. SJR:2.062, ISI IF:3.929
Cited in в:
175. H. Poghosyan, G. Sarkissian, On classical and semiclassical properties of the Liouville theory
with defects, Proc. conf. , Physics of Atomic Nuclei Vol. 80, No. 4 (2017) pp. 761–
768., @2017
176. Iris Cong, Meng Cheng, Zhenghan Wang, Hamiltonian and Algebraic Theories of Gapped
Boundaries in Topological Phases of Matter, Comm. Math. Phys. 355 (2017) 645-689, @2017
177. L. Hadjiivanov, P. Furlan, Quantum groups as generalized gauge symmetries in WZNW
models. Part I. The classical model. Phys.Part.Nucl. 48 (2017) no.4, 509-563., @2017
50. Cappelli, A., Georgiev, L. S., Todorov, I. T.. Parafermion Hall states from coset projections of abelian
conformal theories. Nucl. Phys. B, 599, Elsevier B.V., 2001, ISSN:0550-3213, DOI:doi:10.1016/S0550-
3213(00)00774-4, 499-530. SJR:2.062, ISI IF:3.929
Cited in в:
178. Duric, T, Biedron, K, Zakrzewski, J. "Fibonacci anyon excitations of one-dimensional dipolar
lattice bosons", PHYSICAL REVIEW B Volume: 95, Issue: 8, Article Number:
085102, @2017
179. Fuji, Y., Lecheminant, P., "Non-Abelian SU(N-1)-singlet fractional quantum Hall states from
coupled wires", PHYSICAL REVIEW B, Volume: 95, 2017, Issue: 12, Article Number:
125130., @2017
180. Hansson, TH, Hermanns, M., Simon, SH, Viefers, SF, "Quantum Hall physics: Hierarchies and
conformal field theory techniques", REVIEWS OF MODERN PHYSICS, Volume: 89, Issue:
2, Article Number: 025005, @2017
181. Hadjiivanov, L, Furlan, P., "Quantum groups as generalized gauge symmetries in WZNW
models. Part I. The classical model", PHYSICS OF PARTICLES AND NUCLEI, Volume: 48,
Issue: 4, Pages: 509-563, @2017
182. Lundholm, D., "Many-anyon trial states", PHYSICAL REVIEW A, Volume: 96, Issue: 1,
Article Number: 012116, @2017
183. Furukawa, S., Ueda, M., "Quantum Hall phase diagram of two-component Bose gases:
Intercomponent entanglement and pseudopotentials", PHYSICAL REVIEW A, Volume: 96,
Issue: 5, Article Number: 053626, @2017
184. Tournois, Y., Hermanns, M., "Conformal field theory construction for non-Abelian hierarchy
wave functions", PHYSICAL REVIEW B, Volume: 96, Issue: 24, Article Number:
245107, @2017
51. Bozhilov, P.. Exact string solutions in nontrivial backgrounds. Phys.Rev.D65:026004,2001, 2001, ISI
IF:4.363
Cited in в:
page 16/47
185. Ion V. Vancea, Entanglement Entropy in the s-Model with the de Sitter Target Space,
Nucl.Phys. B924 (2017) 453-476, @2017
186. Ion V. Vancea, "Nonequilibrium dynamics of the σ-model modes on the de Sitter space",
Adv.High Energy Phys. 2017 (2017) 3706870, @2017
52. Nissimov, E., Pacheva, S.. Gauging of Geometric Actions and Integrable Hierarchies of KP Type.
International Journal of Modern Physics A, 16, World Scientific, 2001, ISSN:0217-751X, 2311-2364. ISI
IF:1.597
Cited in в:
187. Blagoje Oblak, BMS Particles in Three Dimensions, Springer theses, ISBN: 978-3-319-61877-
7 (2017), @2017
188. G.Barnich, H.Gonzalez, P. Salgado-Rebolledo, "Geometric actions for three-dimensional
gravity", arXiv:1707.08887, @2017
2002
53. Aizawa, N, Dobrev, V.K., Doebner, H.-D.. Intertwining operators for Schr\"odinger algebras and hierarchy
of invariant equations. `Quantum Theory and Symmetries II', Proceedings of the 2nd QTS Symposium,,
World Sci, Singapore, 2002, ISBN:981-02-4887-3, 222-227
Cited in в:
189. L. Krizka \& P. Somberg, "Conformal Galilei algebras, symmetric polynomials and singular
vectors", Lett. Math. Phys., {\bf 107} (2017) 1-44., @2017
190. F. Alshammari, P.S. Isaac, I. Marquette "A differential operator realisation approach for
constructing Casimir operators of non-semisimple Lie algebras", arXiv:1706.09970 [math-
ph], @2017
54. Leader, E., Sidorov, A. V., Stamenov, D. B.. A New evaluation of polarized parton densities in the nucleon.
Eur. Phys. J. C, 23, 2002, ISSN:1434-6052, 479-485. ISI IF:5.084
Cited in в:
191. A.I. Signal, "Re-examining valence quark spin distributions." e-Print: arXiv:1702.05152 [hep-
ph]., @2017
55. Ivanov, B.V.. Static charged perfect fluid spheres in general relativity. Phys. Rev. D, 65, 10, APS, 2002,
ISSN:1550-7998, DOI:http://dx.doi.org/10.1103/PhysRevD.65.104001, 104001. ISI IF:4.643
Cited in в:
192. Tamta, R., P.Fuloria, A new charged anisotropic compact star model in general relativity, J.
Mod. Phys. 8 (2017) 1762, @2017
193. Kiess, T., A resolution of a metric singularity associated with the introduction of Lambda into
static spherically symmetric systems, Int. J. Mod. Phys. D 26 (2017) 1750039, @2017
194. Bhar, P., K. Newton Singh, F.Rahaman, N.Pant, S.Banerjee, A charged anisotropic well-
behaved Adler – Finch – Skea solution satisfying Karmarkar condition, Int. J. Mod. Phys. D 26
(2017) 1750078, @2017
195. Maurya, S.K., Y.K.Gupta, S.Ray, All spherically symmetric charged anisotropic solutions for
compact stars, Eur. Phys. J. C 77 (2017) 360, @2017
196. Bhar, P., M.Govender, R.Sharma, A comparative study between EGB gravity and GTR by
modelling compact stars, Eur. Phys. J. C 77 (2017) 109, @2017
page 17/47
197. Cho, I., H.Kim, Black holes with anisotropic fluid, arXiv: 1703.01103 [gr-qc], @2017
198. Hansraj, S., Generalized spheroidal spacetimes in 5-D Einstein-Maxwell-Gauss-Bonnet
gravity, Eur. Phys. J. C 77 (2017) 557, @2017
199. Hansraj, S., S.Maharaj, Sh.Mlaba, N.Qwabe, All static charged dust spheres in general
relativity, J. Math. Phys. 58 (2017) 052501, @2017
200. Kiess, T., Voids in static neutron stars via a second solution of the Einstein field equations,
Astrophys. Space Sci. 362 (2017) 131, @2017
201. Kim, H.C., Black hole in closed spacetime with an anisotropic fluid, Phys. Rev. D 96 (2017)
064053, @2017
202. Hansraj, S., N.Qwabe, Inverse square law isothermal property in relativistic charged static
dstributions, Mod. Phys. Lett. A 32 (2017) 1750204, @2017
56. Ivanov, B.V.. Maximum bounds on the surface redshift of anisotropic stars. Phys. Rev. D, 65, 10, APS,
2002, ISSN:1550-7998, DOI:http://dx.doi.org/10.1103/PhysRevD.65.104011, 104011. ISI IF:4.643
Cited in в:
203. Maurya, S., D.Deb, S.Ray, P.Kuhfittig, Compact stars: a generalized model, arXiv: 1703.08436
[physics.gen-ph], @2017
204. Maurya, S.K., Relativistic modeling of compact stars for anisotropic matter distribution, Eur.
Phys. J. A 53 (2017) 89, @2017
205. Banerjee, A., S.Banerjee, S.Hansraj, A.Ovgun, Anisotropic stellar models admitting conformal
motion, Eur. Phys. J Plus 132 (2017) 150, @2017
206. Bhar, P., K.Singh, T.Manna, A new class of relativistic model of compact stars of embedding
class I, Int. J. Mod. Phys. D 26 (2017) 1750090, @2017
207. Singh, K., P.Bhar, F.Rahaman, N.Pant, M.Rahaman, Conformally non-flat spacetime
representing dense compact objects, Mod. Phys. Lett. A 32 (2017) 1750093, @2017
208. Singh, K., M.Murad, N.Pant, A 4D spacetime embedded in a 5D pseudo-Euclidean space
describing interior of compact stars, Eur. Phys. J. A 53 (2017) 21, @2017
209. Thomas, V.O., D.M.Pandya, Anisotropic compact stars on paraboloidal spacetime with linear
equation of state, Eur. Phys. J. A 53 (2017) 120, @2017
210. Maurya, S.K., A.Banerjee, Y.K.Gupta, Exact solution of anisotropic compact stars via mass
function, arXiv: 1706.01334 [physics.gen-ph], @2017
211. Komathiraj, K., R.Sharma, A family of solutions to the Einstein-Maxwell system of equations
describing relativistic charged fluid spheres, arXiv: 1712.07999 [physics.gen-ph], @2017
212. Dayanandan, B., S.K.Maurya, T.Smitha, Modeling of charged anisotropic compact stars in
general relativity, Eur. Phys. J. A 53 (2017) 141, @2017
213. Herrera, L., J.L.Hernandez-Pastora, Physical properties of a source of the Kerr metric: Bound
on the surface gravitational potential and conditions for fragmentation, Phys. Rev. D 96 (2017)
024048, @2017
214. Banerjee, A., J.R.Villanueva, P.Channuie, K.Jusufi, Stable gravastars: Guilfoyle’s electrically
charged solutions, arXiv: 1708.04566 [gr-qc], @2017
215. Fuloria, P., N.Pant, Physical plausibility of cold star models satisfying Karmarkar conditions,
Eur. Phys. J. A 53 (2017) 227, @2017
216. Bhar, P., N.Singh, N.Sarkar, F.Rahaman, A comparative study in generalized model of
anisotropic compact star satisfying Karmarkar condition, Eur. Phys. J. C 77 (2017)
596, @2017
page 18/47
217. Maurya, S.K., S.Ray, Sh. Ghosh, S.Manna, T.T.Smitha, A generalized family of anisotropic
compact object in general relativity, arXiv: 1710.02002 [physics.gen-ph], @2017
218. Deb, D., S.R.Chowdhury, S.Ray, F.Rahaman, B.K.Guha, Relativistic model for anisotropic
strange stars, Ann. Phys. 387 (2017) 239, @2017
219. Ratanpal, B.S., D.M.Pandya, R.Sharma, S.Das, Charged compact stellar model in Finch-Skea
spacetime, Astrophys. Space Sci. 362 (2017) 82, @2017
220. Maurya, S.K., A.Banerjee, S.Hansraj, The role of anisotropy pressure on relativistic compact
stars, arXiv: 1710.10463 [gr-qc], @2017
221. Fuloria, P., Anisotropic compact star models in Karmarkar space time continuum, Astrophys.
Space Sci. 362 (2017) 217, @2017
222. Sharif, M., A.Siddiqa, Study of charged stellar structures in f(R, T) gravity, Eur. Phys. J. Plus
132 (2017) 529, @2017
57. Doebner, H.-D., Palev, T.D., Stoilova, N.I.. On deformed Clifford Cl$_q$(n$|$m) and orthosymplectic
U$_q$[osp(2n+1$|$2m)] superalgebras and their root of unity representations. J. Phys. A, 35, 2002, 9367-
9380. ISI IF:1.406
Cited in в:
223. Hengyun Yang and Yang Zhang, A quantum fermion realisation of the finite dimensional spinor
representation of U_q(osp(1|2m)), J. Math. Phys. 58, 071706 (2017), @2017
58. Dobrev, V.K.. Positive energy unitary irreducible representations of D=6 conformal supersymmetry. J.
Phys. A, 35, 2002, 7079-7100. ISI IF:1.583
Cited in в:
224. S. L\"ust, "Maximally Supersymmetric AdS Solutions in Gauged Supergravity", PhD, Univ.
Hamburg, 2017, @2017
225. L. Rastelli and X. Zhou, ``Holographic Four-Point Functions in the (2, 0) Theory, ''
arXiv:1712.02788 [hep-th]., @2017
226. M. Beccaria and A.A. Tseytlin, ``$C_T$ for higher derivative conformal fields and anomalies
of (1, 0) superconformal 6d theories, '' JHEP 1706 (2017) 002, @2017
227. J.T. Liu and B. McPeak, ``One-Loop Holographic Weyl Anomaly in Six Dimensions, ''
arXiv:1709.02819 [hep-th]., @2017
59. Ivanov, B. V.. Integrable cases of gravitating static isothermal fluid spheres. J. Math. Phys., 43, 2, AIP,
2002, ISSN:0022-2488, DOI:10.1063/1.1431259, 1029-1043. ISI IF:1.176
Cited in в:
228. Tiwari, A.K., S.D.Maharaj, R.Narain, Static spherical metrics: a geometrical approach, Class.
Quantum Grav. 34 (2017) 155009, @2017
60. Anguelova, L, Lazaroiu, C.. Domain walls of N=2 supergravity in five-dimensions from hypermultiplet
moduli spaces. JHEP, 0209, 2002, 053. ISI IF:6.063
Cited in в:
229. Fiki T. Akbar, Bobby E. Gunara, Rio N. Wijaya and Flinn C. Radjabaycolle, Higher
dimensional curved domain walls on Kähler surfaces, Annals Phys. 378 (2017) 1-12,
arXiv:1512.05780 [hep-th], @2017
page 19/47
61. Petkova, V.B., Zuber, J.-B. Conformal field theories, graphs and quantum algebras. MATHPHYS
ODYSSEY 2001 –Integrable Models and Beyond, 23, Progress in Mathematical Physics, Birkhauser, 2002,
ISBN:ISBN 978-1-4612-0087, DOI:10.1007/978-1-4612-0087-1, 21, 415-435
Cited in в:
230. L. Hadjiivanov, P. Furlan, Quantum groups as generalized gauge symmetries in WZNW
models. Part I. The classical model. Phys.Part.Nucl. 48 (2017) no.4, 509-563., @2017
2003
62. Arnaudon, D., Chakrabarti, A., Dobrev, V.K., Mihov, S.G.. Spectral Decomposition and Baxterisation of
Exotic Bialgebras and Associated Noncommutative Geometries. Int. J. Mod. Phys. A, 18, 2003, 4201
Cited in в:
231. N. Crampe, L. Frappat, E. Ragoucy and M. Vanicat, ``A New Braid-like Algebra for
Baxterisation, '' Commun. Math. Phys. 349 (2017) no.1, 271-283., @2017
232. M. Vanicat, "An integrabilist approach of out-of-equilibrium statistical physics models",
arXiv:1708.02440, 259 pages, PhD thesis, @2017
233. N. Crampe, E. Ragoucy, M. Vanicat, "Back to baxterisation", arXiv:1708.02754 [math-
ph]., @2017
63. Leader, E., Sidorov, A. V,, Stamenov, D. B.. On the role of higher twist in polarized deep inelastic
scattering. Physical Review D, 67, 2003, DOI:10.1103/PhysRevD.67.074017, 074017
Cited in в:
234. H. Khanpour, S. Taheri Monfared, S. Atashbar Tehrani, "Study of spin-dependent structure
functions of 3He and 3H at NNLO approximation and corresponding nuclear corrections".
Phys. Rev. D96 (2017) no.7, 074037, @2017
64. Anguelova, L, Grassi, P.A.. Super D-branes from BRST symmetry. JHEP, 11, 2003, ISSN:1029-8479, 010.
ISI IF:6.023
Cited in в:
235. Hanazawa, S., Sakaguchi, M., D-branes from Pure Spinor Superstring in AdS_5 x S^5
Background, Nucl.Phys. B914 (2017) 234-247, arXiv:1609.05457 [hep-th], @2017
65. Anguelova, L, Lazaroiu, C. M-theory compactifications on certain toric cones of G2 holonomy. JHEP, 01,
2003, ISSN:1029-8479, 066. ISI IF:6.023
Cited in в:
236. Hitoshi Nishino and Subhash Rajpoot, Supersymmetric self-dual Yang–Mills theories from
local nilpotent fermionic symmetry, Phys. Lett. B772 (2017) 731-736, @2017
2004
66. Angelova, M.N., Dobrev, V.K., Frank, A.. Revisiting the Quantum Group Symmetry of Diatomic
Molecules. Eur. Phys. J. D, 31, 2004, ISSN:1434-6060, 27-37. ISI IF:1.208
Cited in в:
page 20/47
237. Nguyen Anh Sang, Do Thi Thu Thuy, Nguyen Thi Ha Loan, Nguyen Tri Lan2, Nguyen Ai Viet,
"Energy spectrum inverse problem of q-deformed harmonic oscillator and entanglement of
composite bosons", J. Phys. Conf. Ser. 865 (2017) 012002, @2017
238. Ngo Gia Vinh, Man Van Ngu, Nguyen Tri Lan, Luu Thi Kim Thanh, Nguyen Thi Dung,
Nguyen Ai Viet, "Some applications using the connection between q-deformed harmonic
oscillator and symmetric and asymmetric potentials", J. Phys. Conf. Ser. 865 (2017)
012006, @2017
67. Anguelova, L, Grassi, P.A., Vanhove, P. Covariant one-loop amplitudes in D=11. Nuclear Physics B, 702,
2004, 269. ISI IF:3.929
Cited in в:
239. Bandos, I., BCFW-type recurrent relations for tree amplitudes of D = 11 supergravity,
Phys.Rev.Lett. 118 (2017) no.3, 031601, arXiv:1605.00036 [hep-th], @2017
240. Max Guillen, On the equivalence of the 11D pure spinor and Brink-Schwarz-like superparticle
cohomologies, arXiv:1705.06316 [hep-th], @2017
241. Hamid R. Bakhtiarizadeh, Two Ramond-Ramond corrections to type II supergravity via field-
theory amplitude, Eur. Phys. J. C77 (2017) no.12, 823, arXiv:1708.02805 [hep-th], @2017
242. Hamid R. Bakhtiarizadeh, Gauge field corrections to eleven dimensional supergravity via
dimensional reduction, arXiv:1711.11313 [hep-th], @2017
2005
68. Dobrev, V.K., Zhang, R.B.. Positive Energy Unitary Irreducible Representations of the Superalgebras
osp(1|2n,R). Phys. Atom. Nuclei, 68, 2005, 1660-1669. ISI IF:0.51
Cited in в:
243. A. Alldridge, "Fr\'echet globalisations of Harish-Chandra supermodules", Math. Res. Not.
IMRN 17 (2017), 5182-5232., @2017
2006
69. Kostov, I.K., Petkova, V.B. Bulk correlation functions in 2D quantum gravity. Theor. Math. Phys., 146,
2006, ISSN:0040-5779, 132-145. ISI IF:0.801
Cited in в:
244. G. Giribet, L. Rado, On non-homogeneous tachyon condensation in closed string theory, JHEP
8 (2017) 015., @2017
245. A. Kupiainen, R. Rhodes, V. Vargas, Integrability of Liouville theory: proof of the DOZZ
Formula, arXiv:1707.08785 [Math.PR]., @2017
246. V. Vargas, Lecture notes on Liouville theory and the DOZZ formula, arXiv:1712.00829
[math.PR], @2017
70. Sidorov, A. V., Stamenov, D. B.. Target Mass Effects in Polarized Deep Inelastic Scattering. Mod. Phys.
Lett. A, 21, 2006, ISSN:0217-7323, 1991-1998. ISI IF:1.198
Cited in в:
247. Hamzeh Khanpour, Sara Taheri Monfared, S. Atashbar Tehrani, "Nucleon spin structure
functions at NNLO in the presence of target mass corrections and higher twist effects." Phys.
Rev. D95 (2017) no.7, 074006., @2017
page 21/47
71. Leader, E., Sidorov, A. V., Stamenov, D. B.. Longitudinal polarized parton densities updated. Phys. Rev.
D, 73, 2006, ISSN:1550-7998, 034023. ISI IF:4.643
Cited in в:
248. B.I. Ermolaev, S.I. Troyan, "Non-perturbative inputs for gluon distributions in the hadrons"
Eur. Phys. J. C77 (2017) no.3, 167., @2017
249. Y. V. Kovchegov, Daniel Pitonyak, Matthew D. Sievert, "Small-x Asymptotics of the Gluon
Helicity Distribution". JHEP 1710 (2017) 198., @2017
250. V.S. Zamiralov, "Unitary symmetry of DDK sum rules for hadron photoproduction on octet
baryons". e-Print: arXiv:1711.02382 [hep-ph]., @2017
251. T. J. Hobbs, Mary Alberg, Gerald A. Miller, "A Euclidean bridge to the relativistic constituent
quark model." Phys. Rev. C95 (2017) no.3, 035205, @2017
252. Y. V. Kovchegov, D. Pitonyak, M. D. Sievert, "Small-x asymptotics of the quark helicity
distribution." Phys. Rev. Lett. 118 (2017) no.5, 052001., @2017
72. Anguelova, L, Diana Vaman. R^4 corrections to heterotic M-theory. Nucl. Phys. B, 733, 2006, 132-159.
ISI IF:3.678
Cited in в:
253. Matthias Weissenbacher, On four-derivative terms in IIB Calabi-Yau orientifold reductions,
JHEP 1704 (2017) 063, @2017
73. Lievens, S., Stoilova, N.I., Van der Jeugt, J.. Harmonic oscillators coupled by springs: discrete solutions as
a Wigner Quantum System. J. Math. Phys., 47, 113504, 2006, ISI IF:1.018
Cited in в:
254. Patrick Gelß, Stefan Klus, Sebastian Matera, Christof Schutte, SLIM-Decomposition: Nearest-
Neighbor Interaction Systems in the Tensor Train Fo.rmat, Journal of Computational Physics
341, 140-162 (2017), @2017
74. Dobrev, V.K.. Invariant Differential Operators and Characters of the $AdS_4$ Algebra. J. Phys. A, 39, 20,
IOP Publishing, 2006, ISSN:1751-8113, DOI:10.1088/0305-4470/39/20/024, 5995-6020. ISI IF:1.857
Cited in в:
255. P. Moylan, "Localization and the Weyl algebras", Phys. of Atomic Nuclei 80 iss. 3 (2017) 590–
597, @2017
2007
75. Abdessalam, B., Chakrabarti, A., Dobrev, V.K., Mihov, S.G.. Higher Dimensional Unitary Braid Matrices:
Construction, Associated Structures and Entanglements. J. Math. Phys., 48, 2007, 053508
Cited in в:
256. C.-L. Ho, T. Deguchi, "Multi-qudit states generated by unitary braid quantum gates based on
Temperley-Lieb algebra, " EPL (Europhysics Letters) 118 (2017) 40001, @2017
76. Leader, E., Sidorov, A. V., Stamenov, D. B.. Impact of CLAS and COMPASS data on Polarized Parton
Densities and Higher Twist. Phys. Rev. D, 75, 2007, ISSN:1550-7998, 074027. ISI IF:4.643
Cited in в:
page 22/47
257. Hamzeh Khanpour, Abolfazl Mirjalili, S. Atashbar Tehrani, "Analytic derivation of the next-
to-leading order proton structure function Fp2(x, Q2) based on the Laplace transformation."
Phys. Rev. C95 (2017) no.3, 035201., @2017
258. Hamzeh Khanpour, Sara Taheri Monfared, S. Atashbar Tehrani, "Nucleon spin structure
functions at NNLO in the presence of target mass corrections and higher twist effects". Phys.
Rev. D95 (2017) no.7, 074006., @2017
259. CLAS Collaboration (Robert Fersch et al.), CLAS Collaboration (Robert Fersch et al.),
"Determination of the proton spin structure functions for 0.05< Q**2 < 5 GeV**2 using
CLAS". Phys. Rev. C96 (2017) no.6, 065208., @2017
260. H. Khanpour, S. Taheri Monfared, S. Atashbar Tehrani, "Study of spin-dependent structure
functions of 3He and 3H at NNLO approximation and corresponding nuclear corrections".
Phys. Rev. D96 (2017) no.7, 074037., @2017
77. Stoimenov, S.. On the dynamical symmetric algebra of ageing: Lie structure, representations and Appell
systems. Quantum Probability and Infinite Dimensional Analysis, QP-PQ: Quantum Probability and White
Noise Analysis, 20, 2007, ISBN:978-981-270-851-9, DOI:10.1142/9789812770271_0022, 233-240
Cited in в:
261. Krishnan, C. Raju, A. " Contractions from Grading". arXiv preprint arXiv:1710.01644, @2017
262. Raju, A. "Aspects of Higher Spin Theories, Conformal Field Theories and Holography". arXiv
preprint arXiv:1711.03300, @2017
78. Kostov, I.K., Petkova, V.B. Non-rational 2d quantum gravity: I. World sheet CFT. Nuclear Physics B, B
770, 2007, ISSN:0550-3213, 273-331. SJR:2.062, ISI IF:3.929
Cited in в:
263. G. Giribet, L. Rado, On non-homogeneous tachyon condensation in closed string theory, JHEP
8 (2017) 015, @2017
79. Kostov, I.K., Petkova, V.B. Non-rational 2d quantum gravity: II. Target space CFT. Nuclear Physics B,
769, 2007, ISSN:0550-3213, 175-216. SJR:2.062, ISI IF:3.929
Cited in в:
264. G. Giribet, L. Rado, On non-homogeneous tachyon condensation in closed string theory, JHEP
8 (2017) 015., @2017
2008
80. Lievens, S., Stoilova, N.I., Van der Jeugt, J.. The paraboson Fock space and unitary irreducible
representations of the Lie superalgebra osp(1|2n). Commun. Math. Phys., 281, 2008, 805-826. ISI IF:2.086
Cited in в:
265. Won Sang Chung, Bose description of the generalized Pauli spin operators and para super
symmetry, Int. J. Geom. Methods Mod. Phys., 14, 1750059 (2017) [10 pages], @2017
81. Stoilova, N.I., Van der Jeugt, J.. The parafermion Fock space and explicit so(2n+1) representations. J. Phys.
A, 41, 7, 2008, 075202. ISI IF:1.766
Cited in в:
266. Won Sang Chung, Bose description of the generalized Pauli spin operators and para super
symmetry, Int. J. Geom. Methods Mod. Phys., 14, 1750059 (2017) [10 pages], @2017
page 23/47
82. Ivanov, B. V.. Purely electromagnetic spacetimes. Phys. Rev. D., 77, APS, 2008, ISSN:1550-7998,
DOI:https://doi.org/10.1103/PhysRevD.77.044007, 044007. ISI IF:5.156
Cited in в:
267. Mol, I., Applications of differential forms to a class of electrovacuum plane wave solutions of
Einstein-Maxwell equations, in Horizons in world physics, Vol. 295, Nova Science Publishers,
Inc. 2017, @2017
83. Lievens, S., Stoilova, N.I., Van der Jeugt, J.. Harmonic oscillator chains as Wigner Quantum Systems:
periodic and fixed wall boundary conditions in gl(1|n) solutions. J. Math. Phys., 49, 073502, 2008, ISI
IF:1.176
Cited in в:
268. L.F. Buchmann, K. Molmer, and D. Petrosyan, Universal Gaussian quantum simulator with a
chain of coupled harmonic oscillators, arXiv:1710.03145, @2017
269. Andrea Coser, Cristiano De Nobili, Erik Tonni, A contour for the entanglement entropies in
harmonic lattices, arXiv:1701.08427, @2017
2009
84. Anguelova, L, Calo, V, Cicoli, M. LARGE Volume String Compactifications at Finite Temperature. JCAP,
10, 2009, 025. ISI IF:5.81
Cited in в:
270. Juan Diaz Dorronsoro, Marjorie Schillo, Towards an explicit model of large field inflation,
arXiv:1712.04466 [hep-th], @2017
85. Dobrev, V.K.. Note on Centrally Extended su(2/2) and Serre Relations. Fortschr. d. Phys., 57, 5-7, Wiley-
VCH, 2009, ISSN:1521-3978, DOI:10.1002/prop.200900052, 542-545. ISI IF:2.434
Cited in в:
271. R. Borsato and A. Torrielli, ``$q$-Poincar\'e supersymmetry in $AdS_5/CFT_4$, ''
arXiv:1706.10265 [hep-th]., @2017
86. Dobrev, V.K.. Exceptional Lie Algebra E_{7(-25)} (Multiplets and Invariant Differential Operators). J.
Phys. A, 42, 2009, 285203. ISI IF:1.583
Cited in в:
272. A. Marrani and P. Truini, ``Sextonions, Zorn Matrices, and e$_{7 1/2}$'', Lett. Math. Math.
{\bf 107} (2017) 1859–1875, @2017
87. Dobrev, V.K.. Invariant Differential Operators for Non-Compact Lie Groups: the E_{6(-14)} case.
Proceedings of 5th Mathematical Physics Meeting: Summer School and Conference on Modern
Mathematical Physics, Belgrade,, SFIN XXII A1, Institute of Physics, Belgrade, 2009
Cited in в:
273. A. Marrani and P. Truini, ``Sextonions, Zorn Matrices, and e$_{7 1/2}$'', Lett. Math. Math.
{\bf 107} (2017) 1859–1875;, @2017
88. Georgiev, L.S., Ahlbrecht, A., Werner, R.F.. Implementation of Clifford gates in the Ising-anyon
topological quantum computer. Physical Review A - Atomic, Molecular, and Optical Physics, 79, 3,
page 24/47
American Physical Society, 2009, ISSN:10502947, DOI:10.1103/PhysRevA.79.032311, 032311.
SJR:1.418, ISI IF:3.042
Cited in в:
274. Lahtinen, VT, Pachos, JK. "A short introduction to topological quantum computation",
SCIPOST PHYSICS, Vol. 3 (2017), Issue: 3, Article Number: UNSP 021, @2017
2010
89. Laky, P., Doneva, D.. Stability and Quasinormal Modes of Black holes in Tensor-Vector-Scalar theory:
Scalar Field Perturbations. Phys.Rev. D, 82, 2010, 124068. ISI IF:4.964
Cited in в:
275. Quasinormal Modes of Modified Gravity (MOG) Black Holes By Luciano Manfredi, Jonas
Mureika, John Moffat. arXiv:1711.03199 [gr-qc]., @2017
276. General theories of linear gravitational perturbations to a Schwarzschild Black Hole By Oliver
J. Tattersall, Pedro G. Ferreira, Macarena Lagos. arXiv:1711.01992 [gr-qc]., @2017
277. Neutron stars in Scalar-Tensor-Vector Gravity By Federico G. Lopez Armengol, Gustavo E.
Romero. arXiv:1611.05721 [gr-qc]. 10.1007/s10714-017-2184-0. Gen.Rel.Grav. 49 (2017)
no.2, 27., @2017
90. Ivanov, B.V.. The importance of anisotropy for relativistic fluids with spherical symmetry. Int. J. Theor.
Phys., 49, 6, Springer, 2010, ISSN:0020-7748, DOI:10.1007/s10773-010-0305-6, 1236. ISI IF:1.184
Cited in в:
278. Singh, K., M.Murad, N.Pant, A 4D spacetime embedded in a 5D pseudo-Euclidean space
describing interior of compact stars, Eur. Phys. J. A 53 (2017) 21, @2017
279. Maurya, S.K., Relativistic modeling of compact stars for anisotropic matter distribution, Eur.
Phys. J. A 53 (2017) 89, @2017
280. Бакирова, Э., Ю.Саламатина, Нейтронные звезды с анизотропным веществом, Вестник
Волгоградского государственного университета. Серия 1: Математика, физика 1 (38)
(2017) 90-102, @2017
281. Sharma, R., Sh.Das, S.Thirukkanesh, Anisotropic extension of Finch and Skea stellar model,
Astrophys. Space Sci. 362 (2017) 232, @2017
91. Anguelova, L, Quigley, C, Sethi, S. The Leading Quantum Corrections to Stringy Kahler Potentials. JHEP,
10, 2010, 065. ISI IF:6.111
Cited in в:
282. ATLAS Collaboration (Faïrouz Malek for the collaboration), Search for a high mass diphoton
resonance using the ATLAS detector, EPJ Web Conf. 164 (2017) 01027, @2017
283. Philip Candelas, Xenia de la Ossa and Jock McOrist, A Metric for Heterotic Moduli, Commun.
Math. Phys. 356 (2017) no.2, 567-612, arXiv:1605.05256 [hep-th], @2017
92. Christova E., Albino S.. The non-singlet kaon fragmentation function from e^+e^- kaon production.
Phys.Rev.D, 81, 094031,2010, 2010, DOI:https://doi.org/10.1103/PhysRevD.81.094031, 09431. ISI
IF:4.643
Cited in в:
page 25/47
284. H. Saveetha, D. Indumathi , Fragmentation of $ω$ and $φ$ Mesons in $e^+ e^-$ and $p p$
Collisions at NLO, arXiv:1705.00214, @2017
93. Leader, E., Sidorov, A. V., Stamenov, D. B.. Determination of Polarized PDFs from a QCD Analysis of
Inclusive and Semi-inclusive Deep Inelastic Scattering Data. Phys. Rev. D, 82, 2010, 114018. ISI IF:4.643
Cited in в:
285. Itaru Nakagawa (RIKEN (main) & RIKEN BNL), " Gluon polarization measurements and the
possible role of diffractive process in the transverse single spin asymmetry measurements in
RHIC-PHENIX". EPJ Web Conf. 141 (2017) 03006., @2017
286. Hamzeh Khanpour, Sara Taheri Monfared, S. Atashbar Tehrani, "Nucleon spin structure
functions at NNLO in the presence of target mass corrections and higher twist effects". Phys.
Rev. D95 (2017) no.7, 074006., @2017
287. .James Wells (ed.), Guido Altarelli, "Collider Physics within the Standard Model : A Primer".
Lect. Notes Phys. 937 (2017)., @2017
288. J. J. Ethier, N. Sato, W. Melnitchouk, "First simultaneous extraction of spin-dependent parton
distributions and fragmentation functions from a global QCD analysis". Phys. Rev. Lett. 119
(2017) no.13, 132001, @2017
289. Yuri V. Kovchegov, Daniel Pitonyak, Matthew D. Sievert, " Small-x Asymptotics of the Gluon
Helicity Distribution". JHEP 1710 (2017) 198., @2017
290. STAR Collaboration (Leszek Adamczyk, et al.), "Azimuthal transverse single-spin
asymmetries of inclusive jets and charged pions within jets from polarized-proton collisions at
√s = 500 GeV". e-Print:arXiv:1708.07080 [hep-ex]., @2017
291. Chandan Mondal , "Helicity-dependent generalized parton distributions for nonzero skewness".
Eur. Phys. J. C77 (2017) no.9, 640., @2017
292. STAR Collaboration (Qinghua Xu for the collaboration), "Measurement of Longitudinal
Single-Spin Asymmetry for W Production in Polarized Proton+Proton Collisions at STAR".
Conference: C17-04-03.1; arXiv:1709.07126 [hep-ex]., @2017
293. Huey-Wen Lin et al., "Parton distributions and lattice QCD calculations: a community white
paper". arXiv:1711.07916., @2017
294. M. Salimi-Amiri, A. Khorramian, H. Abdolmaleki, A. Ghaffari-Turan, "Polarized parton
densities and spin dependent structure function of the nucleon". EPJ Web Conf. 164 (2017)
08005., @2017
295. Nayan Mani Nath, Jayanta Kumar Sarma, "Small-x behavior of non-singlet spin structure
function and Bjorken sum rule with pQCD correction up to NNLO and Higher twist correction".
Int. J. Theor. Phys. 56 (2017) no.5, 1456-1473., @2017
296. STAR Collaboration (Jinlong Zhang for the collaboration), "Measurement of the Longitudinal
Single-Spin Asymmetry for W Boson Production at STAR". PoS INPC2016 (2017)
302., @2017
297. Tanmay Maji, Chandan Mondal, Dipankar Chakrabarti, "Leading twist generalized parton
distributions and spin densities in a proton ". Phys. Rev. D96 (2017) no.1, 013006., @2017
298. Y. V. Kovchegov, D. Pitonyak, M. D. Sievert, "Small-x asymptotics of the quark helicity
distribution." Phys. Rev. Lett. 118 (2017) no.5, 052001., @2017
299. STAR Collaboration (L. Adamczyk et al.), "Measurement of the cross section and longitudinal
double-spin asymmetry for di-jet production in polarized pp collisions at √s = 200 GeV." Phys.
Rev. D95 (2017) no.7, 071103., @2017
page 26/47
300. STAR Collaboration (Devika Gunarathne), "Measurement of W(+/-) single spin asymmetries
and W cross section ratio in polarized p+p collisions at √s = 510 GeV at STAR". C16-09-25;
arXiv:1702.02927 [nucl-ex]., @2017
301. Jorg Pretz, "Improved Method to extract Nucleon Helicity Distributions using Event
Weighting." JINST 12 (2017) no.02, P0 2007., @2017
302. Carl E. Carlson, Michael Freid, "Lattice corrections to the quark quasidistribution at one-loop".
Phys. Rev. D95 (2017) no.9, 094504., @2017
303. I. Nakagawa, "Review on Recent Results from RHIC Polarized Collider; Unexpected Forward
Neutron Asymmetry". JPS Conf. Proc. 13 (2017) 010013., @2017
94. Aizawa, N., Dobrev, V.K.. Intertwining Operator Realization of Non-Relativistic Holography. Nucl. Phys.
B, 828, 2010, 581-593. SJR:2.062, ISI IF:3.929
Cited in в:
304. F. Alshammari, P.S. Isaac, I. Marquette "A differential operator realisation approach for
constructing Casimir operators of non-semisimple Lie algebras", arXiv:1706.09970 [math-
ph]., @2017
95. Stoilova, N.I., Van der Jeugt, J.. Gel’fand–Zetlin basis and Clebsch–Gordan coefficients for covariant
representations of the Lie superalgebra gl(m∣n). J. Math. Phys., 51, 093523, 2010, ISI IF:1.296
Cited in в:
305. Jason L. Werry, Phillip S. Isaac and Mark D. Gould, Reduced Wigner coefficients for Lie
superalgebra gl(m|n) corresponding to unitary representations and beyond, arXiv:1705.05956
and J. Phys. A: Math. Theor. 50 (2017) 365202 (16pp)., @2017
2011
96. Doneva, D., Stefanov, I., Yazadjiev, S.. Solitons and Black Holes in a Generalized Skyrme Model with
Dilaton-Quarkonium field. Phys.Rev. D, 83, 2011, 124007. ISI IF:4.558
Cited in в:
306. Growing Hair on the extremal $BTZ$ black hole By B. Harms, A. Stern. arXiv:1703.10234
[gr-qc]. 10.1016/j.physletb.2017.04.021. Phys.Lett. B769 (2017) 465-469., @2017
97. Doneva, D., Kokkotas, K., Stefanov, I., Yazadjiev, S.. Time Evolution of the Radial Perturbations and
Linear Stability of Solitons and Black Holes in a Generalized Skyrme Model. Phys.Rev. D, 84, 2011,
084021. ISI IF:4.558
Cited in в:
307. Growing Hair on the extremal $BTZ$ black hole By B. Harms, A. Stern. arXiv:1703.10234
[gr-qc]. 10.1016/j.physletb.2017.04.021. Phys.Lett. B769 (2017) 465-469., @2017
98. Christova E., Ginina E., Arhrib A., Eberl H.. CP violation in charged Higgs production and decays in the
Complex Two Higgs Doublet Model. JHEP 2011 (4), 1-35, 04, springer, 2011, ISSN:1126-6708, 1-35. ISI
IF:5.618
Cited in в:
308. Duarte Fontes, Margarete Mühlleitner, Jorge C. Romão, Rui Santos, João P. Silva, Jonas
Wittbrodt , The C2HDM revisited, arXiv:1711.09419, @2017
page 27/47
309. Hermès Bélusca-Maïto, Adam Falkowski, Duarte Fontes, Jorge. C. Romão, João P. CP
violation in 2HDM and EFT: the ZZZ vertex , arXiv:1710.05563, @2017
310. Ricardo Gaitán, Roberto Martinez, Jose Halim Montes de Oca, Higgs-like scalar and
$t\rightarrow cZ$ decays in the 2HDM type III with CP violation, arXiv:1710.04262, @2017
311. Miguel P. Bento, Howard E. Haber, J. C. Romão, João P. Silva, Multi-Higgs doublet models:
physical parametrization, sum rules and unitarity bounds, arXiv:1708.09408, @2017
312. R. Grober, M. Muhlleitner, M. Spira, Higgs Pair Production at NLO QCD for CP-violating
Higgs Sectors, arXiv:1705.05314, @2017
313. M. Muhlleitner, M. Sampaio, R. Santos, J. Wittbrodt Phenomenological Comparison of Models
with Extended Higgs Sectors, arXiv:1703.07750, @2017
314. Igor P. Ivanov, Building and testing models with extended Higgs sectors,
arXiv:1702.03776, @2017
99. Leader, E., Sidorov, A. V., Stamenov, D. B.. A Possible Resolution of the Strange Quark Polarization
Puzzle ?. Phys. Rev. D, 84, 2011, 014002. ISI IF:4.643
Cited in в:
315. C. Adolph et al. (COMPASS Collaboration), "Multiplicities of charged kaons from deep-
inelastic muon scattering off an isoscalar target." Phys. Lett. B767 (2017) 133-141., @2017
316. Nobuo Sato (Jefferson Lab). "First Monte Carlo determination of fragmentation functions from
e+e− annihilation into hadrons". Feb 4, 2017. Conference: C16-11-21.1, p.26-30., @2017
317. J. J. Ethier, N. Sato, W. Melnitchouk, "First simultaneous extraction of spin-dependent parton
distributions and fragmentation functions from a global QCD analysis". Phys. Rev. Lett. 119
(2017) no.13, 132001., @2017
318. Huey-Wen Lin et al., "Parton distributions and lattice QCD calculations: a community white
paper", arXiv:1711.07916., @2017
100. Anguelova, L. Electroweak Symmetry Breaking from Gauge/Gravity Duality. Nuclear Physics B, 843,
2011, 429. ISI IF:3.929
Cited in в:
319. Daniel Elander and Maurizio Piai, Calculable mass hierarchies and a light dilaton from gravity
duals, Phys. Lett. B772 (2017) 110-114, arXiv:1703.09205 [hep-th], @2017
320. Daniel Elander and Maurizio Piai, Glueballs on the Baryonic Branch of Klebanov-Strassler:
dimensional deconstruction and a light scalar particle, JHEP 1706 (2017) 003,
arXiv:1703.10158 [hep-th], @2017
101. Albino, S., Christova, E., Leader, E.. On model independent extraction of the Kaon Fragmentation
Functions. arXiv:1102.2305 [hep-ph], 2011
Cited in в:
321. H. Saveetha, D. Indumathi, Fragmentation of $ω$ and $φ$ Mesons in $e^+ e^-$ and $p p$
Collisions at NLO, arXiv:1705.00214, @2017
102. Anguelova, L, Suranyi, P, Wijewardhana, L.C.R.. Holographic Walking Technicolor from D-branes.
Nuclear Physics B, 852, 2011, 39-60. ISI IF:3.929
Cited in в:
322. Daniel Elander and Maurizio Piai, Calculable mass hierarchies and a light dilaton from gravity
duals, Phys. Lett. B772 (2017) 110-114, arXiv:1703.09205 [hep-th], @2017
page 28/47
323. Daniel Elander and Maurizio Piai, Glueballs on the Baryonic Branch of Klebanov-Strassler:
dimensional deconstruction and a light scalar particle, JHEP 1706 (2017) 003,
arXiv:1703.10158 [hep-th], @2017
324. Yidian Chen, Mei Huang, Qi-Shu Yan, Gravitation waves from QCD and electroweak phase
transitions, arXiv:1712.03470 [hep-ph], @2017
103. Anguelova, L, Quigley, C. Quantum Corrections to Heterotic Moduli Potentials. JHEP, 02, 2011, 113. ISI
IF:6.111
Cited in в:
325. The Odd story of α′-corrections, Walter H. Baron, Jose J. Fernandez-Melgarejo, Diego Marques
and Carmen Nunez, JHEP 1704 (2017) 078, arXiv:1702.05489 [hep-th], @2017
104. Ahn, Changrim, Bozhilov, P.. Finite-size Giant Magnons on AdS4 x 1 CP3_gamma. Phys.Lett.B703:186-
192,2011, 2011, ISI IF:4.787
Cited in в:
326. Hui-Huang Chen, Jun-Bao Wu, "Finite-size Effect for Dyonic Giant Magnons in CP3β ", Phys.
Lett. B 769, 90 (2017), @2017
327. Hui-Huang Chen, Peng Liu, Jun-Bao Wu, "Y-system for γ-deformed ABJM Theory",
JHEP03(2017)133, @2017
105. Jafarov, E.I., Stoilova, N.I., Van der Jeugt, J.. Finite oscillator models: the Hahn oscillator. J. Phys. A:
Math. Theor., 44, 265203, 2011, ISI IF:1.583
Cited in в:
328. Apostolos Vourdas, Finite and Profinite Quantum Systems, Chapter: Quantum Systems with
Variables in Z(d), pp 23-55, ISBN: 978-3-319-59494-1 (Print) 978-3-319-59495-8 (Online);
Springer International Publishing (2017), @2017
106. Stoilova, N.I., Van der Jeugt, J.. An exactly solvable spin chain related to Hahn polynomials. SIGMA, 7,
033, 2011, ISI IF:1.243
Cited in в:
329. J.M. Lemay, L. Vinet, A. Zhedanov, A q-generalization of the para-Racah polynomials,
arXiv:1708.03368, @2017
330. Eric-Olivier Bosse and Luc Vinet, Coherent transport in optical lattices : A survey of recent
analytic results, SIGMA 13 (2017), 074, 19 pages and arXiv:1705.04841, @2017
107. Gerdjikov, V S, Ivanov, R I, Kyuldjiev, A V. On the N-wave equations and soliton interactions in two and
three dimensions. Wave Motion, 48, 8, Elsevier, 2011, ISSN:0165-2125,
DOI:10.1016/j.wavemoti.2011.04.014, 791-804. SJR:0.848, ISI IF:1.513
Cited in в:
331. Sarfraz, Saleem, "Darboux transformation and multi-soliton solutions of local/nonlocal N-wave
interactions". Modern Physics Letters vol. 32 No. 36, 1750196, @2017
108. Ivanov, B.V.. Self-gravitating spheres of anisotropic fluid in geodesic flow. Int. J. Mod. Phys. D, 20, 3,
World Scientific, 2011, ISSN:0218-2718, DOI:10.1142/S0218271811018858, 319. ISI IF:1.741
Cited in в:
page 29/47
332. Shah, S.M., G.Abbas, Dynamics of charged bulk viscous collapsing cylindrical source with heat
flux, Eur. Phys. J. C 77 (2017) 251, @2017
2012
109. Jafarov, E.I., Stoilova, N.I., Van der Jeugt, J.. Deformed su(1,1) algebra as a model for quantum oscillators.
SIGMA, 8, 025, 2012, ISI IF:1.071
Cited in в:
333. Masoud Seidi, Mehdi Omidi, Studying energy spectrum of chain Barium isotopes $(^{124-
130}Ba)$ using SU(1, 1) algebra in the transitional region of IBM-1, Journal of Research on
Many-body Systems, Volume 7, Number 13, (2017) 213., @2017
110. Doneva, D., Yazadjiev, S.. Gravitational wave spectrum of anisotropic neutron stars in Cowling
approximation. Phys.Rev. D, 85, 2012, 124023. ISI IF:4.691
Cited in в:
334. Equilibrium and stability of strange anisotropic stars By José D.V. Arbañil, Manuel Malheiro.
10.1142/9789813226609_0148., @2017
335. Existence of relativistic structures in $f(R, T)$ gravity By M. Ilyas, Z. Yousaf, M.Z. Bhatti,
Bilal Masud. 10.1007/s10509-017-3215-8. Astrophys.Space Sci. 362 (2017) no.12,
237., @2017
336. Strange stars in $f(R, \mathcal{T})$ gravity By Debabrata Deb, Farook Rahaman, Saibal Ray,
B.K. Guha. arXiv:1711.10721 [gr-qc]., @2017
337. Impact of phase transition from neutrons to hyperons in neutron star properties By Alrizal, A.
Sulaksono. 10.1063/1.4991118. AIP Conf.Proc. 1862 (2017) no.1, 030014., @2017
338. The observational evidence for horizons: from echoes to precision gravitational-wave physics
By Vitor Cardoso, Paolo Pani. arXiv:1707.03021 [gr-qc]., @2017
339. Approximate Universal Relations for Neutron Stars and Quark Stars By Kent Yagi, Nicolás
Yunes. arXiv:1608.02582 [gr-qc]. 10.1016/j.physrep.2017.03.002. Phys.Rept. 681 (2017) 1-
72., @2017
111. Anguelova, L, Suranyi, P, Wijewardhana, L.C.R.. Scalar Mesons in Holographic Walking Technicolor.
Nuclear Physics B, 862, 2012, 671-690. ISI IF:3.929
Cited in в:
340. Yidian Chen, Mei Huang, Qi-Shu Yan, Gravitation waves from QCD and electroweak phase
transitions, arXiv:1712.03470 [hep-ph], @2017
112. Nonova Tz., Mladenov Al., Ivanov D., Stankov D., Marinov K., Ivanova S., Krezhov K.. Radiation
monitoring at the site IRT-Sofia for the period January 2011 – August 2012. BgNS Transactions, 17, 1,
2012, ISSN:1310-8727, 3-10
Cited in в:
341. E. Geleva, “Radioecological environmental studies in clean areas and around nuclear facilities”,
PhD thesis, 2017, @2017
113. Ivanov, B. V.. Collapsing shear-free perfect fluid spheres with heat flow. Gen. Relativ. Gravit., 44, 7,
Springer US, 2012, ISSN:0001-7701, DOI:10.1007/s10714-012-1370-3, 1835. ISI IF:1.771
Cited in в:
page 30/47
342. Banerjee, N., S.Chakrabarti, Self-similar scalar field collapse, Phys. Rev. D 95 (2017)
024015, @2017
343. Chakrabarti, S., Aspects of gravitational collapse and the formation of spacetime singularities,
PhD thesis, arXiv: 1709.01512, @2017
2013
114. Passamonti, A., Gaertig, E., Kokkotas, K., Doneva, D.. Evolution of the ff-mode instability in neutron stars
and gravitational wave detectability. Phys.Rev. D, 87, 2013, 084010. ISI IF:4.864
Cited in в:
344. Gravitational waves from single neutron stars: an advanced detector era survey By Kostas
Glampedakis, Leonardo Gualtieri. arXiv:1709.07049 [astro-ph.HE]., @2017
345. The Fate of Neutron Star Binary Mergers By Anthony L. Piro, Bruno Giacomazzo, Rosalba
Perna. arXiv:1704.08697 [astro-ph.HE]. 10.3847/2041-8213/aa7f2f. Astrophys.J. 844 (2017)
no.2, L19., @2017
346. Stochastic gravitational wave background from newly born massive magnetars: The role of a
dense matter equation of state By Quan Cheng, Shuang-Nan Zhang, Xiao-Ping Zheng.
arXiv:1704.02013 [astro-ph.HE]. 10.1103/PhysRevD.95.083003. Phys.Rev. D95 (2017) no.8,
083003., @2017
347. Rotating Stars in Relativity By Vasileios Paschalidis, Nikolaos Stergioulas. arXiv:1612.03050
[astro-ph.HE]. 10.1007/s41114-017-0008-x. Living Rev.Rel. 20 (2017) no.1, 7., @2017
115. Christova E., Bilenky S.M.. On the polarization of the final nucleon in NC elastic ν_μ (\bar ν_μ) - N
scattering. Physics of Particles and Nuclei, Letters, 10, No 7 (2013) 1071-1083 (arXiv:1307.7275), 10, 7,
Springer, 2013, ISSN:ISSN: 1547-4771 (printed version), ISSN: 1531-8567 (electronic version), 1071-
1083
Cited in в:
348. Krzysztof M. Graczyk, Beata E. Kowal, Polarization Transfer in Weak Pion Production off the
Nucleon , arXiv:1711.04868, @2017
349. F. Akbar, M. Sajjad Athar, A. Fatima, S. K. Singh , Weak quasielastic electroproduction of
hyperons with polarization observables, Eur. Phys. J. A (2017) 53: 154, @2017
116. Doneva, D. D., Yazadjiev, S. S., Stergioulas, N., Kokkotas, K. D.. Rapidly rotating neutron stars in scalar-
tensor theories of gravity. Physical Review D, 88, 8, 2013, DOI:10.1103/PhysRevD.88.084060, 084060.
ISI IF:4.643
Cited in в:
350. Neutron stars in vector-tensor theories By Ryotaro Kase, Masato Minamitsuji, Shinji
Tsujikawa. arXiv:1711.08713 [gr-qc]., @2017
351. Pulse profiles from a pulsar in scalar-tensor gravity By Hajime Sotani. arXiv:1710.10596
[astro-ph.HE]. 10.1103/PhysRevD.96.104010. Phys.Rev. D96 (2017) no.10, 104010., @2017
352. Expansion of magnetic neutron stars in an energy (in)dependent spacetime By B. Eslam Panah,
G.H. Bordbar, S.H. Hendi, R. Ruffini, Z. Rezaei, R. Moradi. arXiv:1707.06460 [gr-qc].
10.3847/1538-4357/aa8b6f. Astrophys.J. 848 (2017) no.1, 24., @2017
353. Scalarization of neutron stars with realistic equations of state By Zahra Altaha Motahar, Jose
Luis Blázquez-Salcedo, Burkhard Kleihaus, Jutta Kunz. arXiv:1707.05280 [gr-qc].
10.1103/PhysRevD.96.064046. Phys.Rev. D96 (2017) no.6, 064046., @2017
page 31/47
354. Maximum mass limit of neutron stars in scalar-tensor gravity By Hajime Sotani, Kostas D.
Kokkotas. arXiv:1702.00874 [gr-qc]. 10.1103/PhysRevD.95.044032. Phys.Rev. D95 (2017)
no.4, 044032., @2017
355. Black Holes: A Laboratory for Testing Strong Gravity By Cosimo Bambi. 10.1007/978-981-
10-4524-0., @2017
356. Neutron stars structure in the context of massive gravity By S.H. Hendi, G.H. Bordbar, B. Eslam
Panah, S. Panahiyan. arXiv:1701.01039 [gr-qc]. 10.1088/1475-7516/2017/07/004. JCAP 1707
(2017) 004., @2017
357. Rotating Stars in Relativity By Vasileios Paschalidis, Nikolaos Stergioulas. arXiv:1612.03050
[astro-ph.HE]. 10.1007/s41114-017-0008-x. Living Rev.Rel. 20 (2017) no.1, 7., @2017
358. An accurate metric for the spacetime around rotating neutron stars By George Pappas.
arXiv:1610.05370 [gr-qc]. 10.1093/mnras/stx019. Mon.Not.Roy.Astron.Soc. 466 (2017) no.4,
4381-4394., @2017
117. Doneva, D. D., Gaertig, E., Kokkotas, K. D., Krüger, C.. Gravitational wave asteroseismology of fast
rotating neutron stars with realistic equations of state. Physical Review D, 88, 4, 2013, ISSN:15507998,
DOI:10.1103/PhysRevD.88.044052, 044052. ISI IF:4.643
Cited in в:
359. Relativistic EoS with the quark-meson-coupling model By Guilherme Grams.
10.1142/9789813226609_0439., @2017
360. Gravitational waves from single neutron stars: an advanced detector era survey By Kostas
Glampedakis, Leonardo Gualtieri. arXiv:1709.07049 [astro-ph.HE]., @2017
361. Probing mass-radius relation of protoneutron stars from gravitational-wave asteroseismology
By Hajime Sotani, Takami Kuroda, Tomoya Takiwaki, Kei Kotake. arXiv:1708.03738 [astro-
ph.HE]. 10.1103/PhysRevD.96.063005. Phys.Rev. D96 (2017) no.6, 063005., @2017
362. Resonant Tidal Excitation of Oscillation Modes in Merging Binary Neutron Stars: Inertial-
Gravity Modes By Wenrui Xu, Dong Lai. arXiv:1708.01839 [astro-ph.HE].
10.1103/PhysRevD.96.083005. Phys.Rev. D96 (2017) no.8, 083005., @2017
363. Oscillation modes of rapidly rotating neutron stars in scalar-tensor theories of gravity By
Stoytcho S. Yazadjiev, Daniela D. Doneva, Kostas D. Kokkotas. arXiv:1705.06984 [gr-qc].
10.1103/PhysRevD.96.064002. Phys.Rev. D96 (2017) no.6, 064002., @2017
364. Stochastic gravitational wave background from newly born massive magnetars: The role of a
dense matter equation of state By Quan Cheng, Shuang-Nan Zhang, Xiao-Ping Zheng.
arXiv:1704.02013 [astro-ph.HE]. 10.1103/PhysRevD.95.083003. Phys.Rev. D95 (2017) no.8,
083003., @2017
365. Quark matter with strong magnetic field and possibility of the third family of compact stars By
Hajime Sotani, Toshitaka Tatsumi. arXiv:1701.06361 [astro-ph.HE]. 10.1093/mnras/stx219.
Mon.Not.Roy.Astron.Soc. 467 (2017) no.1, 1249-1258., @2017
366. Rotating Stars in Relativity By Vasileios Paschalidis, Nikolaos Stergioulas. arXiv:1612.03050
[astro-ph.HE]. 10.1007/s41114-017-0008-x. Living Rev.Rel. 20 (2017) no.1, 7., @2017
367. Probing nuclear bubble structure via neutron star asteroseismology By Hajime Sotani, Kei Iida,
Kazuhiro Oyamatsu. arXiv:1609.01802 [astro-ph.HE]. 10.1093/mnras/stw2575.
Mon.Not.Roy.Astron.Soc. 464 (2017) no.3, 3101-3107., @2017
118. Nissimov, E., Pacheva, S., Guendelman, E., Vasihoun, M. Dynamical Volume Element in Scale-Invariant
and Supergravity Theories. Bulgarian Journal of Physics, 40, Heron Press Ltd., Sofia, 2013, ISSN:1310-
0157, 121-126
page 32/47
Cited in в:
368. S. Rajpoot, S. Vacaru, Eur. Phys. J. C77 (2017) 313, @2017
119. Christova E., S.M.Bilenky. Polarization of the final nucleon in quasi-elastic neutrino scattering and the
axial form factor of the nucleon. Journal of Physics G: Nuclear and Particle Physics 40 (7), 075004, 2013,
ISSN:0954-3899, ISI IF:5.326
Cited in в:
369. F. Akbar, M. Sajjad Athar, A. Fatima, S. K. Singh, Weak quasielastic electroproduction of
hyperons with polarization observables, Journal-ref: Eur. Phys. J. A (2017) 53: 154,
arXiv:1704.04580, @2017
370. Krzysztof M. Graczyk, Beata E. Kowal, Polarization Transfer in Weak Pion Production off the
Nucleon, arXiv:1711.04868, @2017
2014
120. Doneva, D. D., Yazadjiev, S. S., Staykov, K. V., Kokkotas, K. D.. Universal I-Q relations for rapidly
rotating neutron and strange stars in scalar-tensor theories. Physical Review D, 90, 10, 2014,
DOI:10.1103/PhysRevD.90.104021, 104021. ISI IF:4.643
Cited in в:
371. Neutron stars in vector-tensor theories By Ryotaro Kase, Masato Minamitsuji, Shinji
Tsujikawa. arXiv:1711.08713 [gr-qc]., @2017
372. Structure of Compact Stars in R-squared Palatini Gravity By F. A. Teppa Pannia, F. García, S.
E. Perez Bergliaffa, M. Orellana, G.E. Romero. arXiv:1607.03508 [gr-qc]. 10.1007/s10714-
016-2182-7. Gen.Rel.Grav. 49 (2017) no.2, 25., @2017
121. Staykov, Kalin V., Doneva, Daniela D., Yazadjiev, Stoytcho S., Kokkotas, Kostas D.. Slowly rotating
neutron and strange stars in R^2 gravity. Journal of Cosmology and Astroparticle Physics, 10, 2014,
DOI:10.1088/1475-7516/2014/10/006, 006. ISI IF:5.81
Cited in в:
373. Neutron star mergers as a probe of modifications of general relativity with finite-range scalar
forces By Laura Sagunski, Jun Zhang, Matthew C. Johnson, Luis Lehner, Mairi Sakellariadou,
Steven L. Liebling, Carlos Palenzuela, David Neilsen. arXiv:1709.06634 [gr-qc]., @2017
374. Vacuum solutions around spherically symmetric and static objects in Starobinsky model By
Sercan Çıkıntoğlu. arXiv:1708.00345 [gr-qc]., @2017
375. Expansion of magnetic neutron stars in an energy (in)dependent spacetime By B. Eslam Panah,
G.H. Bordbar, S.H. Hendi, R. Ruffini, Z. Rezaei, R. Moradi. arXiv:1707.06460 [gr-qc].
10.3847/1538-4357/aa8b6f. Astrophys.J. 848 (2017) no.1, 24., @2017
376. Modified Gravity Theories on a Nutshell: Inflation, Bounce and Late-time Evolution By S.
Nojiri, S.D. Odintsov, V.K. Oikonomou. arXiv:1705.11098 [gr-qc].
10.1016/j.physrep.2017.06.001. Phys.Rept. 692 (2017) 1-104., @2017
377. Emerging anisotropic compact stars in $f(\mathcal {G}, T)$ gravity By M. Farasat Shamir,
Mushtaq Ahmad. arXiv:1705.06910 [gr-qc]. 10.1140/epjc/s10052-017-5239-1. Eur.Phys.J.
C77 (2017) no.10, 674., @2017
378. Physical attributes of anisotropic compact stars in $f(R, G)$ gravity By M. Farasat Shamir,
Saeeda Zia. arXiv:1705.06582 [physics.gen-ph]. 10.1140/epjc/s10052-017-5010-7. Eur.Phys.J.
C77 (2017) no.7, 448., @2017
page 33/47
379. Strange stars in $f(R)$ theories of gravity in the Palatini formalism By Grigoris Panotopoulos.
arXiv:1704.04961 [gr-qc]. 10.1007/s10714-017-2230-y. Gen.Rel.Grav. 49 (2017) no.5,
69., @2017
380. Equation of State of Neutron Stars with Junction Conditions in the Starobinsky Model By Wei-
Xiang Feng, Chao-Qiang Geng, W.F. Kao, Ling-Wei Luo. arXiv:1702.05936 [gr-qc].
10.1142/S0218271817501863. Int.J.Mod.Phys. D26 (2017) 1750186., @2017
381. Neutron stars structure in the context of massive gravity By S.H. Hendi, G.H. Bordbar, B. Eslam
Panah, S. Panahiyan. arXiv:1701.01039 [gr-qc]. 10.1088/1475-7516/2017/07/004. JCAP 1707
(2017) 004., @2017
382. Rotating Stars in Relativity By Vasileios Paschalidis, Nikolaos Stergioulas. arXiv:1612.03050
[astro-ph.HE]. 10.1007/s41114-017-0008-x. Living Rev.Rel. 20 (2017) no.1, 7., @2017
122. Leader, E., Sidorov, A. V., Stamenov, D. B.. Importance of Semi Inclusive DIS Processes in Determining
Fragmentation Functions. Proceedings of 15th Workshop on High Energy Spin Physics (DSPIN13), Dubna,
Russia, Oct 8-12, 2013 (edited by E.V. Efremov and S.V. Goloskokov, Dubna, JINR, 2014, pp 124-130),
2014, ISBN:978-5-9530-0377-3, 124-130
Cited in в:
383. C. Adolph et al. (COMPASS Collaboration), "Multiplicities of charged pions and unidentified
charged hadrons from deep-inelastic scattering of muons off an isoscalar target." Phys. Lett.
B764 (2017) 1-10., @2017
384. C. Adolph et al. (COMPASS Collaboration), "Multiplicities of charged kaons from deep-
inelastic muon scattering off an isoscalar target." Phys. Lett. B767 (2017) 133-141, @2017
385. Fabienne Kunne (for the collaboration), "COMPASS results on proton longitudinal spin
structure function g1 and quark fragmentation functions COMPASS Collaboration". EPJ Web
Conf. 164 (2017) 01007., @2017
123. Doneva, Daniela D., Yazadjiev, Stoytcho S., Stergioulas, Nikolaos, Kokkotas, Kostas D., Athanasiadis,
Tilemachos M.. Orbital and epicyclic frequencies around rapidly rotating compact stars in scalar-tensor
theories of gravity. Physical Review D, 90, 2014, DOI:10.1103/PhysRevD.90.044004, 044004. ISI IF:4.643
Cited in в:
386. Neutron stars in vector-tensor theories By Ryotaro Kase, Masato Minamitsuji, Shinji
Tsujikawa. arXiv:1711.08713 [gr-qc]., @2017
387. Scalarization of neutron stars with realistic equations of state By Zahra Altaha Motahar, Jose
Luis Blázquez-Salcedo, Burkhard Kleihaus, Jutta Kunz. arXiv:1707.05280 [gr-qc].
10.1103/PhysRevD.96.064046. Phys.Rev. D96 (2017) no.6, 064046., @2017
388. Rotating Stars in Relativity By Vasileios Paschalidis, Nikolaos Stergioulas. arXiv:1612.03050
[astro-ph.HE]. 10.1007/s41114-017-0008-x. Living Rev.Rel. 20 (2017) no.1, 7., @2017
124. Yazadjiev, Stoytcho S., Doneva, Daniela D., Kokkotas, Kostas D., Staykov, Kalin V.. Non-perturbative
and self-consistent models of neutron stars in R-squared gravity. Journal of Cosmology and Astroparticle
Physics, 06, 2014, DOI:10.1088/1475-7516/2014/06/003, 003. ISI IF:5.81
Cited in в:
389. Existence of relativistic structures in $f(R, T)$ gravity By M. Ilyas, Z. Yousaf, M.Z. Bhatti,
Bilal Masud. 10.1007/s10509-017-3215-8. Astrophys.Space Sci. 362 (2017) no.12,
237., @2017
390. Cosmic acceleration in asymptotically Ricci flat Universe By Luisa G. Jaime, Marcelo Salgado.
arXiv:1711.08026 [gr-qc]., @2017
page 34/47
391. On static and spherically symmetric solutions of Starobinsky model By Shuang Yu, Changjun
Gao, Mingjun Liu. arXiv:1711.04064 [gr-qc]., @2017
392. Vacuum solutions around spherically symmetric and static objects in Starobinsky model By
Sercan Çıkıntoğlu. arXiv:1708.00345 [gr-qc]., @2017
393. Physical attributes of anisotropic compact stars in $f(R, G)$ gravity By M. Farasat Shamir,
Saeeda Zia. arXiv:1705.06582 [physics.gen-ph]. 10.1140/epjc/s10052-017-5010-7. Eur.Phys.J.
C77 (2017) no.7, 448., @2017
394. The realistic models of relativistic stars in $f(R) = R + \alpha R^2$ gravity By Artyom V.
Astashenok, Sergei D. Odintsov, Alvaro de la Cruz-Dombriz. arXiv:1704.08311 [gr-qc].
10.1088/1361-6382/aa8971. Class.Quant.Grav. 34 (2017) no.20, 205008., @2017
395. Equation of State of Neutron Stars with Junction Conditions in the Starobinsky Model By Wei-
Xiang Feng, Chao-Qiang Geng, W.F. Kao, Ling-Wei Luo. arXiv:1702.05936 [gr-qc].
10.1142/S0218271817501863. Int.J.Mod.Phys. D26 (2017) 1750186., @2017
396. Neutron Stars in Screened Modified Gravity: Chameleon vs Dilaton By Philippe Brax, Anne-
Christine Davis, Rahul Jha. arXiv:1702.02983 [gr-qc]. 10.1103/PhysRevD.95.083514.
Phys.Rev. D95 (2017) no.8, 083514., @2017
397. Rotating Stars in Relativity By Vasileios Paschalidis, Nikolaos Stergioulas. arXiv:1612.03050
[astro-ph.HE]. 10.1007/s41114-017-0008-x. Living Rev.Rel. 20 (2017) no.1, 7., @2017
125. Doneva, Daniela D., Yazadjiev, Stoytcho S., Stergioulas, N., Kokkotas, K.. Breakdown of I-Love-Q
Universality in Rapidly Rotating Relativistic Stars. The Astrophysical Journal Letters, 1, 781, 2014,
DOI:10.1088/2041-8205/781/1/L6, L6. ISI IF:5.339
Cited in в:
398. Moment of inertia, quadrupole moment, Love number of neutron star and their relations with
strange matter equations of state By D. Bandyopadhyay, S.A. Bhat, P. Char, D. Chatterjee.
arXiv:1712.01715 [astro-ph.HE], @2017
399. Implications from GW170817 and I-Love-Q relations for relativistic hybrid stars By Vasileios
Paschalidis, Kent Yagi, David Alvarez-Castillo, David B. Blaschke, Armen Sedrakian.
arXiv:1712.00451 [astro-ph.HE]., @2017
400. New temperature dependent hyperonic equation of state: Application to rotating neutron star
models and $I\text{-}Q$ relations By Miguel Marques, Micaela Oertel, Matthias Hempel,
Jérôme Novak. arXiv:1706.02913 [nucl-th]. 10.1103/PhysRevC.96.045806. Phys.Rev. C96
(2017) no.4, 045806., @2017
401. Dark stars: gravitational and electromagnetic observables By Andrea Maselli, Pantelis
Pnigouras, Niklas Grønlund Nielsen, Chris Kouvaris, Kostas D. Kokkotas. arXiv:1704.07286
[astro-ph.HE]. 10.1103/PhysRevD.96.023005. Phys.Rev. D96 (2017) no.2, 023005., @2017
402. Critical mass, moment of inertia and universal relations of rapidly rotating neutron stars with
exotic matter By S.S. Lenka, P. Char, Sarmistha Banik. arXiv:1704.07113 [astro-ph.HE].
10.1142/S0218271817501279. Int.J.Mod.Phys. D26 (2017) no.11, 1750127., @2017
403. Tidal deformation of a slowly rotating material body: Interior metric and Love numbers By
Philippe Landry. arXiv:1703.08168 [gr-qc]. 10.1103/PhysRevD.95.124058. Phys.Rev. D95
(2017) no.12, 124058., @2017
404. Rotating Stars in Relativity By Vasileios Paschalidis, Nikolaos Stergioulas. arXiv:1612.03050
[astro-ph.HE]. 10.1007/s41114-017-0008-x. Living Rev.Rel. 20 (2017) no.1, 7., @2017
405. Rotational properties of hypermassive neutron stars from binary mergers By Matthias
Hanauske, Kentaro Takami, Luke Bovard, Luciano Rezzolla, José A. Font, Filippo Galeazzi,
Horst Stöcker. arXiv:1611.07152 [gr-qc]. 10.1103/PhysRevD.96.043004. Phys.Rev. D96
(2017) no.4, 043004., @2017
page 35/47
406. Approximate Universal Relations for Neutron Stars and Quark Stars By Kent Yagi, Nicolás
Yunes. arXiv:1608.02582 [gr-qc]. 10.1016/j.physrep.2017.03.002. Phys.Rept. 681 (2017) 1-
72., @2017
126. Ahn, Changrim, Bozhilov, P.. String solutions in AdS3x 1S3 x1T4 with NS-NS B-field. Phys.Rev. D90
(2014) 6, 06601, 2014, ISI IF:4.506
Cited in в:
407. Juan Miguel Nieto, "Spinning strings and correlation functions in the AdS/CFT
correspondence", arXiv:1711.09993 [hep-th], @2017
408. Riccardo Borsato, Olof Ohlsson Sax, Alessandro Sfondrini, Bogdan Stefanski, Alessandro
Torrielli, "On the Dressing Factors, Bethe Equations and Yangian Symmetry of Strings on
AdS3 x S3 x T4", J.Phys. A50 (2017) no.2, 024004, @2017
127. Ahn, Changrim, Bozhilov, P.. Finite-size giant magnons on eta-deformed AdS5 x1 S5. Phys.Lett. B737
(2014) 293-297, 2014, ISI IF:4.787
Cited in в:
409. San-Min Ke, Wen-Li Yang, Ke-Xia Jang , Chun Wang , Xue-Min Shuai, Zhan-Yun Wang ,
Gang Shi, "Yang-Baxter deformations of supercoset sigma models with ℤ(4)m
grading", @2017
410. T. Araujo, E. Ó Colgáin, J. Sakamoto, M. M. Sheikh-Jabbari, K. Yoshida, "I in generalized
supergravity", Eur.Phys.J. C77 (2017) no.11, 739, @2017
2015
128. Yazadjiev, S. S., Doneva, D. D., Kokkotas, K. D.. Rapidly rotating neutron stars in R -squared gravity.
Physical Review D, 91, 8, 2015, DOI:10.1103/PhysRevD.91.084018, 084018. ISI IF:4.643
Cited in в:
411. Vacuum solutions around spherically symmetric and static objects in Starobinsky model By
Sercan Çıkıntoğlu. arXiv:1708.00345 [gr-qc]., @2017
412. Modified Gravity Theories on a Nutshell: Inflation, Bounce and Late-time Evolution By S.
Nojiri, S.D. Odintsov, V.K. Oikonomou. arXiv:1705.11098 [gr-qc].
10.1016/j.physrep.2017.06.001. Phys.Rept. 692 (2017) 1-104., @2017
413. Emerging anisotropic compact stars in $f(\mathcal {G}, T)$ gravity By M. Farasat Shamir,
Mushtaq Ahmad. arXiv:1705.06910 [gr-qc]. 10.1140/epjc/s10052-017-5239-1. Eur.Phys.J.
C77 (2017) no.10, 674., @2017
414. Physical attributes of anisotropic compact stars in $f(R, G)$ gravity By M. Farasat Shamir,
Saeeda Zia. arXiv:1705.06582 [physics.gen-ph]. 10.1140/epjc/s10052-017-5010-7. Eur.Phys.J.
C77 (2017) no.7, 448., @2017
415. The realistic models of relativistic stars in $f(R) = R + \alpha R^2$ gravity By Artyom V.
Astashenok, Sergei D. Odintsov, Alvaro de la Cruz-Dombriz. arXiv:1704.08311 [gr-qc].
10.1088/1361-6382/aa8971. Class.Quant.Grav. 34 (2017) no.20, 205008., @2017
416. Equation of State of Neutron Stars with Junction Conditions in the Starobinsky Model By Wei-
Xiang Feng, Chao-Qiang Geng, W.F. Kao, Ling-Wei Luo. arXiv:1702.05936 [gr-qc].
10.1142/S0218271817501863. Int.J.Mod.Phys. D26 (2017) 1750186., @2017
417. Rotating Stars in Relativity By Vasileios Paschalidis, Nikolaos Stergioulas. arXiv:1612.03050
[astro-ph.HE]. 10.1007/s41114-017-0008-x. Living Rev.Rel. 20 (2017) no.1, 7., @2017
page 36/47
418. Neutron stars in Scalar-Tensor-Vector Gravity By Federico G. Lopez Armengol, Gustavo E.
Romero. arXiv:1611.05721 [gr-qc]. 10.1007/s10714-017-2184-0. Gen.Rel.Grav. 49 (2017)
no.2, 27., @2017
129. Nissimov, E., Pacheva, S., Guendelman, E. Dark Energy and Dark Matter From Hidden Symmetry of
Gravity Model with a Non-Riemannian Volume Form. European Physical Journal C, C75, Springer, 2015,
ISSN:1434-6052, DOI:10.1140/epjc/s10052-015-3699-8, 472-479. ISI IF:5.084
Cited in в:
419. L.Sebastiani, S.Vagnozzi, R.Myrzakulov, Adv.High Energy Phys. 2017 (2017)
3156915, @2017
420. S.Vagnozzi, Class. Quant. Grav. 34 (2017) 18, 185006, @2017
130. Staykov, Kalin V., Doneva, Daniela D., Yazadjiev, Stoytcho S.. Orbital and epicyclic frequencies around
neutron and strange stars in $R^2$ gravity. The European Physical Journal C, 75, 607, 2015, ISI IF:5.084
Cited in в:
421. Physical attributes of anisotropic compact stars in $f(R, G)$ gravity By M. Farasat Shamir,
Saeeda Zia. arXiv:1705.06582 [physics.gen-ph]. 10.1140/epjc/s10052-017-5010-7. Eur.Phys.J.
C77 (2017) no.7, 448., @2017
131. Doneva, Daniela D., Kokkotas, Kostas D.. Asteroseismology of rapidly rotating neutron stars - an
alternative approach. Physical Review D, 92, 12, 2015, DOI:10.1103/PhysRevD.92.124004, 124004. ISI
IF:4.643
Cited in в:
422. Gravitational waves from single neutron stars: an advanced detector era survey By Kostas
Glampedakis, Leonardo Gualtieri. arXiv:1709.07049 [astro-ph.HE]., @2017
423. Rotating Stars in Relativity By Vasileios Paschalidis, Nikolaos Stergioulas. arXiv:1612.03050
[astro-ph.HE]. 10.1007/s41114-017-0008-x. Living Rev.Rel. 20 (2017) no.1, 7., @2017
424. Approximate Universal Relations for Neutron Stars and Quark Stars By Kent Yagi, Nicolás
Yunes. arXiv:1608.02582 [gr-qc]. 10.1016/j.physrep.2017.03.002. Phys.Rept. 681 (2017) 1-
72., @2017
132. Staykov, K. V., Doneva, D. D., Yazadjiev, S. S., Kokkotas, K. D.. Gravitational wave asteroseismology of
neutron and strange stars in R^2 gravity. Physical Review D, 92, 4, 2015,
DOI:10.1103/PhysRevD.92.043009, 043009. ISI IF:4.643
Cited in в:
425. Neutron stars structure in the context of massive gravity By S.H. Hendi, G.H. Bordbar, B. Eslam
Panah, S. Panahiyan. arXiv:1701.01039 [gr-qc]. 10.1088/1475-7516/2017/07/004. JCAP 1707
(2017) 004., @2017
426. Rotating Stars in Relativity By Vasileios Paschalidis, Nikolaos Stergioulas. arXiv:1612.03050
[astro-ph.HE]. 10.1007/s41114-017-0008-x. Living Rev.Rel. 20 (2017) no.1, 7., @2017
427. Neutron stars structure in the context of massive gravity By S.H. Hendi, G.H. Bordbar, B. Eslam
Panah, S. Panahiyan. arXiv:1701.01039 [gr-qc]., @2017
133. Doneva, D. D., Yazadjiev, S. S., Kokkotas, K. D.. I-Q relations for rapidly rotating neutron stars in f (R )
gravity. Physical Review D, 92, 6, 2015, DOI:10.1103/PhysRevD.92.064015, 064015. ISI IF:4.643
Cited in в:
page 37/47
428. Neutron star mergers as a probe of modifications of general relativity with finite-range scalar
forces By Laura Sagunski, Jun Zhang, Matthew C. Johnson, Luis Lehner, Mairi Sakellariadou,
Steven L. Liebling, Carlos Palenzuela, David Neilsen. arXiv:1709.06634 [gr-qc]., @2017
429. The realistic models of relativistic stars in $f(R) = R + \alpha R^2$ gravity By Artyom V.
Astashenok, Sergei D. Odintsov, Alvaro de la Cruz-Dombriz. arXiv:1704.08311 [gr-qc].
10.1088/1361-6382/aa8971. Class.Quant.Grav. 34 (2017) no.20, 205008., @2017
430. Dark stars: gravitational and electromagnetic observables By Andrea Maselli, Pantelis
Pnigouras, Niklas Grønlund Nielsen, Chris Kouvaris, Kostas D. Kokkotas. arXiv:1704.07286
[astro-ph.HE]. 10.1103/PhysRevD.96.023005. Phys.Rev. D96 (2017) no.2, 023005., @2017
431. Rotating Stars in Relativity By Vasileios Paschalidis, Nikolaos Stergioulas. arXiv:1612.03050
[astro-ph.HE]. 10.1007/s41114-017-0008-x. Living Rev.Rel. 20 (2017) no.1, 7., @2017
134. Hadjiivanov, L., Todorov, I.. Quantum Entanglement. Bulgarian Journal of Physics, 42, 2, Heron Press
Ltd., Sofia, Bulgaria, 2015, ISSN:Print: 1310-0157, Online: 1314-2666, 128-142
Cited in в:
432. Kupczynski, M., Can we close the Bohr-Einstein quantum debate?, Phil. Trans. R. Soc. A 375:
20160392 (2017), @2017
135. Leader, E., Sidorov, A. V., Stamenov, D. B. New analysis concerning the strange quark polarization puzzle.
Phys. Rev. D, 91, 5, American Physical Society, 2015, ISSN:ISSN 1550 -7998,
DOI:http://dx.doi.org/10.1103/PhysRevD.91.054017, 054017. ISI IF:4.643
Cited in в:
433. Y. V. Kovchegov, D. Pitonyak, M. D. Sievert, "Small-x asymptotics of the quark helicity
distribution."Phys. Rev. Lett. 118 (2017) no.5, 052001., @2017
434. Ming Gong, Yi-Bo Yang, Andrei Alexandru, Terrence Draper, Keh-Fei Liu, "Strange and
charm quark spins from the anomalous Ward identity". Phys. Rev. D95 (2017) no.11,
114509, @2017
435. MicroBooNE Collaboration (Stephen Pate), "Progress on Neutrino-Proton Neutral-Current
Scattering in MicroBooNE", PoS INPC2016 (2017) 260., @2017
436. D. de Florian, M. Epele, R.J. Hernandez-Pinto, R. Sassot, M. Stratmann, "Parton-to-Kaon
Fragmentation Revisited", Phys. Rev. D95 (2017) no.9, 094019., @2017
437. Samira Shoeibi, Hamzeh Khanpour, F. Taghavi-Shahri, Kurosh Javidan, "Determination of
neutron fracture functions from global QCD analysis of leading neutron production at HERA".
Phys. Rev. D95 (2017) no.7, 074011., @2017
438. J. J. Ethier, N. Sato, W. Melnitchouk, "First simultaneous extraction of spin-dependent parton
distributions and fragmentation functions from a global QCD analysis". Phys. Rev. Lett. 119
(2017) no.13, 132001., @2017
439. Yuri V. Kovchegov, Daniel Pitonyak, Matthew D. Sievert, "Small-x Asymptotics of the Gluon
Helicity Distribution", JHEP 1710 (2017) 198., @2017
440. Marzieh Mottaghizadeha, Fatemeh Taghavi Shahrib, Parvin Eslamic, "Parton distribution
functions with QED corrections in the valon model". Phys.Rev. D96 (2017) no.7,
074001., @2017
441. H. Khanpour, S. Taheri Monfared, S. Atashbar Tehrani, "Study of spin-dependent structure
functions of 3He and 3H at NNLO approximation and corresponding nuclear corrections",
Phys. Rev. D96 (2017) no.7, 074037., @2017
page 38/47
442. S. Shoeibi, F. Taghavi-Shahri, H. Khanpour, K. Javidan, 2017, "Phenomenology of leading
nucleon production in ep collisions at HERA in the framework of fracture functions",
arXiv:1710.06329 [hep-ph]., @2017
136. Fiziev, P., Marinov, K.. Compact spherically symmetric static stars with realistic equations of state in the
model of minimal dilatonic gravity. Bulgarian Astronomical Journal, 23, 2015, ISSN:1314-5592, 3-13
Cited in в:
443. Nojiri, S., Odintsov, S.D., Oikonomou, V.K. "Modified gravity theories on a nutshell: Inflation,
bounce and late-time evolution" Phys.Rept. 692 (2017) 1-104, @2017
444. Astashenok, A.V., Odintsov, S.D., De La Cruz-Dombriz, Á. "The realistic models of relativistic
stars in f (R) = R + α R^2 gravity " Class. Quantum Grav. 34 (2017) 205008, @2017
445. Garattini R., Mandanici G., "Rainbow's stars", Eur. Phys. J. C (2017) 77: 57, @2017
137. Aizawa, N., Dobrev, V.K.. Intertwining Operator Realization of anti de Sitter Holography. Rept. Math.
Phys., 75, 2, Elsevier, 2015, ISSN:00344877, DOI:10.1016/S0034-4877(15)30002-1, 179-197. SJR:0.387,
ISI IF:0.871
Cited in в:
446. S. Ohya, ``Intertwining Operator in Thermal CFT$_{d}$, '' Int. J. Mod. Phys. A32 (2017)
1750006., @2017
447. D. Kabat and G. Lifschytz, ``Local bulk physics from intersecting modular Hamiltonians, ''
JHEP 06 (2017) 120, @2017
138. Anguelova, L, Suranyi, P, Wijewardhana, L.C.R.. De Sitter Space in Gauge/Gravity Duality. Nuclear
Physics B, 899, Elsevier, 2015, ISSN:05503213, DOI:10.1016/j.nuclphysb.2015.08.020, 651-676. ISI
IF:3.929
Cited in в:
448. Chu, Ch.S. and Giataganas, D., The Thermal Bath of de Sitter from Holography, Phys.Rev. D96
(2017) no.2, 026023, arXiv:1608.07431 [hep-th], @2017
449. Alex Buchel and Aleksandr Karapetyan, de Sitter Vacua of Strongly Interacting QFT, JHEP
1703 (2017) 114, arXiv:1702.01320 [hep-th], @2017
450. Jarno Rantaharju, Claudio Pica and Francesco Sannino, Ideal Walking Dynamics via a Gauged
NJL Model, Phys.Rev. D96 (2017) no.1, 014512, arXiv:1704.03977 [hep-lat], @2017
451. Chong-Sun Chu, AdS/dS CFT Correspondence and Three Applications, @2017
139. Furlan, P., Petkova, V.B. On some 3-point functions in the $W_4$ CFT and related braiding matrix. Journal
of High Energy Physics, 2015, 12, Springer Verlag, 2015, ISSN:1029-8479,
DOI:10.1007/JHEP12(2015)079, 1-23. ISI IF:6.111
Cited in в:
452. V.Belavin, Y. Haraoka, R. Santachiara, Rigid Fuchsian systems in 2-dimensional conformal
field theories, arXiv:1711.04361, @2017
453. V. Belavin, X. Cao, B. Estienne, R. Santachiara, Second level semi-degenerate fields in W3
Toda theory: matrix element and differential equation, JHEP 03 (2016) 008., @2017
140. Nissimov, E., Pacheva, S., Guendelman, E., Herrera, R., Labrana, P. Emergent Cosmology, Inflation and
Dark Energy. General Relativity and Gravitation, 47, 2, Springer, 2015, ISSN:0001-7701,
DOI:10.1007/s10714-015-1852-1, 10. ISI IF:1.771
page 39/47
Cited in в:
454. 4. Kimet Jusufi, Ali Ovgun, Int.J.Theor.Phys. 56 (2017) no.6, 1725-1738, @2017
2016
141. Nissimov, E., Pacheva, S., Guendelman, E. Unified Dark Energy and Dust Dark Matter Dual to Quadratic
Purely Kinetic K-Essence. European Physical Journal C, 76, Springer, 2016, ISSN:1434-6044, 90. ISI
IF:4.912
Cited in в:
455. J.Dutta, W.Khyllep, E.Saridakis, N.Tamanini, S.Vagnozzi, "Cosmological dynamics of
mimetic gravity", arxiv:1711.07290, @2017
456. A.Safsa, I.Khay, F.Salamat, H. Chakir and M. Bennai, Adv. High energy Phys., vol.2017
(2017), art.ID 2958605, @2017
457. S.Vagnozzi, Class. Quant. Grav. 34 (2017) 18, 185006, @2017
458. E.Elkhateeb, "A Viable Dark Fluid Model", arXiv:1702.05366, @2017
459. Tolkynay Myrzakul, Ertan Gudekli, Shynaray Myrzakul, Ratbay Myrzakulov, "Noether
symmetry of FRW cosmology with f - essence", arXiv:1705.09151, @2017
460. Alexander Leithes, "Perturbations in Lemaitre-Tolman-Bondi and Assisted Coupled
Quintessence Cosmologies", arXiv:1704.08975, @2017
461. L.Sebastiani, S.Vagnozzi, R.Myrzakulov, Adv.High Energy Phys. 2017 (2017)
3156915, @2017
462. Sourav Sur, Arshdeep Singh Bhatia, JCAP 1707 (2017) 039, @2017
142. Nissimov, E., Pacheva, S., Guendelman, E. Metric-Independent Spacetime Volume-Forms and Dark
Energy/Dark Matter Unification. Springer Series in Mathematics and Statistics, 191, Springer, 2016,
ISBN:978-981-10-2635-5, ISSN:2194-1009, DOI:10.1007/978-981-10-2636-2, 261-273. SJR:0.161
Cited in в:
463. L.Sebastiani, S.Vagnozzi, R.Myrzakulov, Adv.High Energy Phys. 2017 (2017)
3156915, @2017
464. S.Vagnozzi, Class. Quant. Grav. 34 (2017) 18, 185006, @2017
143. Christova, E., Leader, E.. The problem of kinematic mass corrections for unpolarized semi-inclusive deep
inelastic scattering. Phys. Rev. D, 94, 096001, 2016, DOI:https://doi.org/10.1103/PhysRevD.94.096001,
ISI IF:4.643
Cited in в:
465. Daniele P. Anderle, Tom Kaufmann, Felix Ringer, Marco Stratmann, Fragmentation Functions
Beyond Fixed Order Accuracy, @2017
466. Juan V. Guerrero, Alberto Accardi, Gauge invariance and kaon production in deep inelastic
scattering at low scales, arXiv:1711.04346, @2017
467. D. de Florian, M. Epele, R. J. Hernandez-Pinto, R. Sassot, M. Stratmann , Parton-to-Kaon
Fragmentation Revisited, Phys. Rev. D 95, 094019 (2017), @2017
144. Anguelova, L. A Gravity Dual of Ultra-slow Roll Inflation. Nuclear Physics B, 911, Elsevier, 2016,
ISSN:05503213, DOI:10.1016/j.nuclphysb.2016.08.020, 480-499. ISI IF:3.735
Cited in в:
page 40/47
468. Alex Buchel, de Sitter Vacua of Strongly Interacting QFT, JHEP 1703 (2017) 114,
arXiv:1702.01320 [hep-th], @2017
469. S.D. Odintsov and V.K. Oikonomou, Inflationary Dynamics with a Smooth Slow-Roll to
Constant-Roll Era Transition, JCAP 1704 (2017) no.04, 041, arXiv:1703.02853 [gr-
qc], @2017
470. Jarno Rantaharju, Claudio Pica and Francesco Sannino, Ideal Walking Dynamics via a Gauged
NJL Model, Phys.Rev. D96 (2017) no.1, 014512, arXiv:1704.03977 [hep-lat], @2017
471. S.D. Odintsov and V.K. Oikonomou, Inflation with a Smooth Constant-Roll to Constant-Roll
Era Transition, Phys.Rev. D96 (2017) no.2, 024029, arXiv:1704.02931 [gr-qc], @2017
472. S. Nojiri, S.D. Odintsov and V.K. Oikonomou, Constant-roll Inflation in F(R) Gravity, Class.
Quant. Grav. 34 (2017) no.24, 245012, arXiv:1704.05945 [gr-qc], @2017
473. V.K. Oikonomou, Reheating in Constant-roll F(R) Gravity, Mod.Phys.Lett. A32 (2017) no.33,
1750172, arXiv:1706.00507 [gr-qc], @2017
474. S.D. Odintsov, V.K. Oikonomou and L. Sebastiani, Unification of Constant-roll Inflation and
Dark Energy with Logarithmic R^2-corrected and Exponential F(R) Gravity, Nucl.Phys. B923
(2017) 608-632, arXiv:1708.08346 [gr-qc], @2017
475. V.K. Oikonomou, A Smooth Constant-Roll to a Slow-Roll Modular Inflation Transition,
arXiv:1709.02986 [gr-qc], @2017
476. A. Awad, W. El Hanafy, G.G.L. Nashed, S.D. Odintsov and V.K. Oikonomou , Constant-roll
Inflation in f(T) Teleparallel Gravity, arXiv:1710.00682 [gr-qc], @2017
145. Hristov, Kiril, Benini, Francesco, Zaffaroni, Alberto. Black hole microstates in AdS4 from supersymmetric
localization. Journal of High Energy Physics, 1605, 54, Springer, 2016, ISSN:1029-8479,
DOI:10.1007/JHEP05(2016)054, ISI IF:6.023
Cited in в:
477. Supersymmetry of Bianchi attractors in gauged supergravity Bidisha Chakrabarty (HBNI,
Mumbai & Bhubaneswar, Inst. Phys.), Karthik Inbasekar (TIFR, Mumbai, Dept. Theor. Phys.
& Tel Aviv U.), Rickmoy Samanta (TIFR, Mumbai, Dept. Theor. Phys. & Bar Ilan U.). Oct 10,
2016. 20 pp. Published in Phys.Rev. D96 (2017) no.6, 066020, @2017
478. Microstate counting of AdS4 hyperbolic black hole entropy via the topologically twisted index
Alejandro Cabo-Bizet (Buenos Aires, IAFE), Victor I. Giraldo-Rivera (ICTS, Mumbai),
Leopoldo A. Pando Zayas (Michigan U., MCTP). Jan 26, 2017. 55 pp. Published in JHEP 1708
(2017) 023, @2017
479. Nonlinear symmetries of black hole entropy in gauged supergravity Dietmar Klemm (Milan U.
& INFN, Milan), Alessio Marrani (Enrico Fermi Ctr., Rome & Padua U. & INFN, Padua),
Nicolò Petri, Marco Rabbiosi (Milan U. & INFN, Milan). Jan 30, 2017. 15 pp. Published in
JHEP 1704 (2017) 013, @2017
480. BPS black holes from massive IIA on S6 Adolfo Guarino, Javier Tarrío (Brussels U., PTM &
Intl. Solvay Inst., Brussels). Mar 31, 2017. 20 pp. Published in JHEP 1709 (2017) 141, @2017
481. Entanglement Entropy of ABJM Theory and Entropy of Topological Black Hole Jun Nian
(IHES, Bures-sur-Yvette), Xinyu Zhang (YITP, Stony Brook). May 4, 2017. 34 pp. Published
in JHEP 1707 (2017) 096, @2017
482. BPS black hole horizons from massive IIA Adolfo Guarino (Brussels U. & Intl. Solvay Inst.,
Brussels & Brussels U., PTM). Jun 6, 2017. 18 pp. Published in JHEP 1708 (2017) 100, @2017
483. Massless AdS2 scattering and Bethe ansatz Andrea Fontanella, Alessandro Torrielli (Surrey U.,
Math. Stat. Dept.). Jun 8, 2017. 14 pp. Published in JHEP 1709 (2017) 075, @2017
page 41/47
484. Toward Microstate Counting Beyond Large N in Localization and the Dual One-loop Quantum
Supergravity James T. Liu (Michigan U., MCTP), Leopoldo A. Pando Zayas (Michigan U.,
MCTP & ICTP, Trieste), Vimal Rathee, Wenli Zhao (Michigan U., MCTP & Michigan U.,
MCTP). Jul 13, 2017. 15 pp. MCTP-17-08 e-Print: arXiv:1707.04197 [hep-th], @2017
485. Logarithmic Corrections to Entropy of Magnetically Charged AdS4 Black Holes Imtak Jeon
(Harish-Chandra Res. Inst.), Shailesh Lal (Paris, LPTHE & UPMC, Paris (main)). Jul 13, 2017.
5 pp. Published in Phys.Lett. B774 (2017) 41-45, @2017
486. Supersymmetric AdS2×Σ2 solutions from tri-sasakian truncation Parinya Karndumri
(Chulalongkorn U.). Jul 30, 2017. 30 pp. Published in Eur.Phys.J. C77 (2017) no.10,
689, @2017
487. Universal RG Flows Across Dimensions and Holography Nikolay Bobev (Leuven U.), P.
Marcos Crichigno (Amsterdam U.). Aug 16, 2017. 65 pp. e-Print: arXiv:1708.05052 [hep-
th], @2017
488. On AdS2/CFT1 transfer matrices, Bethe ansatz and scale invariance Alessandro Torrielli
(Surrey U.). Aug 31, 2017. 30 pp. DMUS-MP-17-08 e-Print: arXiv:1708.09598 [hep-
th], @2017
489. On the On-Shell: The Action of AdS4 Black Holes Nick Halmagyi, Shailesh Lal. Oct 26, 2017.
16 pp. e-Print: arXiv:1710.09580 [hep-th], @2017
490. A One-loop Test of Quantum Black Holes in Anti de Sitter Space James T. Liu, Leopoldo A.
Pando Zayas, Vimal Rathee, Wenli Zhao. Nov 3, 2017. 5 pp. LCTP-17-02 e-Print:
arXiv:1711.01076 [hep-th], @2017
491. Betti multiplets, flows across dimensions and c-extremization Antonio Amariti (U. Bern, AEC
& City Coll., N.Y.), Chiara Toldo (Columbia U.). Oct 27, 2016. 32 pp. Published in JHEP 1707
(2017) 040, @2017
492. Entropy functional and the holographic attractor mechanism Alejandro Cabo-Bizet, Uri Kol,
Leopoldo A. Pando Zayas, Ioannis Papadimitriou, Vimal Rathee. Dec 5, 2017. 34 pp. KIAS-
P17130, LCTP-17-07 e-Print: arXiv:1712.01849 [hep-th], @2017
493. Supersymmetric Sachdev-Ye-Kitaev models Wenbo Fu (Harvard U., Phys. Dept.), Davide
Gaiotto (Perimeter Inst. Theor. Phys.), Juan Maldacena (Princeton, Inst. Advanced Study),
Subir Sachdev (Harvard U., Phys. Dept. & Perimeter Inst. Theor. Phys.). Oct 27, 2016. 20 pp.
Published in Phys.Rev. D95 (2017) no.2, 026009, Addendum: Phys.Rev. D95 (2017) no.6,
069904, @2017
494. Quasi-Normal Modes from Non-Commutative Matrix Dynamics Francesco Aprile (U.
Southampton (main)), Francesco Sanfilippo (Southampton U.). Nov 2, 2016. 19 pp. Published
in JHEP 1709 (2017) 048, @2017
146. Leader, E., Sidorov, A. V., Stamenov, D. B. Determination of the fragmentation functions from an NLO
QCD analysis of the HERMES data on pion multiplicities. Phys. Rev. D, 93, 7, 2016, ISSN:ISSN 1550 -
7998, 074026. ISI IF:4.643
Cited in в:
495. C. Adolph et al. (COMPASS Collaboration), "Multiplicities of charged pions and unidentified
charged hadrons from deep-inelastic scattering of muons off an isoscalar target." Phys. Lett.
B764 (2017) 1-10., @2017
496. C. Adolph et al. (COMPASS Collaboration), "Multiplicities of charged kaons from deep-
inelastic muon scattering off an isoscalar target". Phys. Lett. B767 (2017) 133-141., @2017
497. Juan V. Guerrero, Alberto Accardi, "Gauge invariance and kaon production in deep inelastic
scattering at low scales". JLAB-THY-17-2596; arXiv:1711.04346 [hep-ph]., @2017
page 42/47
498. M. Soleymaninia, H. Khanpour, S. Mohammad Moosavi Nejad, "First determination of D(∗+)-
meson fragmentation functions and their uncertainties at next-to-next-toleading order",
arXiv:1711.11344 [hep-ph]., @2017
499. Juan V. Guerrero, Alberto Accardi, "Hadron Mass Effects: Kaons at HERMES vs. COMPASS".
Conference: C17-05-22.8; arXiv:1712.04571 [hep-ph]., @2017
147. Bozhilov, P.. Some three-point correlation functions in the eta-deformed AdS_5 x S^5. International
Journal of Modern Physics A, 31, 1, World Scientific, 2016, ISSN:Print ISSN: 0217-751X, Online ISSN:
1793-656X, DOI:10.1142/S0217751X15502243, 1550224-1-1550224-17. ISI IF:1.699
Cited in в:
500. Dibakar Roychowdhury, "Stringy correlations on deformed AdS3×S3", JHEP1703 (2017)
043, @2017
148. Nissimov, E., Pacheva, S., Stoilov, M., Guendelman, E. Kruskal-Penrose Formalism for Lightlike Thin-
Shell Wormholes. Springer Series in Mathematics and Statistics, 191, Springer, 2016, ISBN:978-981-10-
2635-5, ISSN:2194-1009, DOI:10.1007/978-981-10-2636-2, 245-259. SJR:0.161
Cited in в:
501. A.Ovgun, K.Jusufi "Stability of Effective Thin-shell Wormholes Under Lorentz Symmetry
Breaking Supported by Dark Matter and Dark Energy" European Physical Journal Plus 132
(2017) 543, @2017
149. Ivanov, B. V.. All solutions for geodesic anisotropic spherical collapse with shear and heat radiation.
Astrophys. Space Sci., 361, 1, Springer, 2016, ISSN:0004-640X, DOI:10.1007/s10509-015-2603-1, 18. ISI
IF:1.678
Cited in в:
502. Mohandal, R., R.Narain, S.D.Maharaj, Nonlinear equations in radiating stellar structures, J.
Math. Phys. 58 (2017) 072503, @2017
150. Daniela, D., Yazadjiev, S.. Rapidly rotating neutron stars with a massive scalar field—structure and
universal relations. JCAP, 1611, 2016, 019-019. ISI IF:5.634
Cited in в:
503. I-Love-Q Relations for Neutron Stars in dynamical Chern Simons Gravity By Toral Gupta,
Barun Majumder, Kent Yagi, Nicolás Yunes. arXiv:1710.07862 [gr-qc]. 10.1088/1361-
6382/aa9c68. Class.Quant.Grav. 35 (2018) no.2, 025009., @2017
504. Stability of Oscillating Gaseous Masses in Massive Brans-Dicke Gravity By M. Sharif, Rubab
Manzoor. arXiv:1708.06245 [gr-qc]. 10.1142/S0218271817501723. Int.J.Mod.Phys. D27
(2017) no.01, 1750172., @2017
505. Scalarization of neutron stars with realistic equations of state By Zahra Altaha Motahar, Jose
Luis Blázquez-Salcedo, Burkhard Kleihaus, Jutta Kunz. arXiv:1707.05280 [gr-qc].
10.1103/PhysRevD.96.064046. Phys.Rev. D96 (2017) no.6, 064046, @2017
506. Approximate Universal Relations for Neutron Stars and Quark Stars By Kent Yagi, Nicolás
Yunes. arXiv:1608.02582 [gr-qc]. 10.1016/j.physrep.2017.03.002. Phys.Rept. 681 (2017) 1-
72., @2017
151. Staykov, K., Doneva, D., Yazadjiev, S.. Accretion disks around neutron and strange stars in R+aR(2)
gravity. JCAP, 1608, 2016, 061. ISI IF:5.634
Cited in в:
page 43/47
507. Vacuum solutions around spherically symmetric and static objects in Starobinsky model By
Sercan Çıkıntoğlu. arXiv:1708.00345 [gr-qc]., @2017
152. Yazadjiev, S., Doneva, D., Popchev, D.. Slowly rotating neutron stars in scalar-tensor theories with a
massive scalar field. Phys.Rev. D, 93, 2016, 084038. ISI IF:4.506
Cited in в:
508. Neutron star mergers as a probe of modifications of general relativity with finite-range scalar
forces By Laura Sagunski, Jun Zhang, Matthew C. Johnson, Luis Lehner, Mairi Sakellariadou,
Steven L. Liebling, Carlos Palenzuela, David Neilsen. arXiv:1709.06634 [gr-qc]., @2017
509. Effective action model of dynamically scalarizing binary neutron stars By Noah Sennett, Lijing
Shao, Jan Steinhoff. arXiv:1708.08285 [gr-qc]. 10.1103/PhysRevD.96.084019. Phys.Rev. D96
(2017) no.8, 084019., @2017
510. Stability of Oscillating Gaseous Masses in Massive Brans-Dicke Gravity By M. Sharif, Rubab
Manzoor. arXiv:1708.06245 [gr-qc]. 10.1142/S0218271817501723. Int.J.Mod.Phys. D27
(2017) no.01, 1750172., @2017
511. Scalarization of neutron stars with realistic equations of state By Zahra Altaha Motahar, Jose
Luis Blázquez-Salcedo, Burkhard Kleihaus, Jutta Kunz. arXiv:1707.05280 [gr-qc].
10.1103/PhysRevD.96.064046. Phys.Rev. D96 (2017) no.6, 064046., @2017
512. Constraining nonperturbative strong-field effects in scalar-tensor gravity by combining pulsar
timing and laser-interferometer gravitational-wave detectors By Lijing Shao, Noah Sennett,
Alessandra Buonanno, Michael Kramer, Norbert Wex. arXiv:1704.07561 [gr-qc].
10.1103/PhysRevX.7.041025. Phys.Rev. X7 (2017) no.4, 041025., @2017
513. Approximate Universal Relations for Neutron Stars and Quark Stars By Kent Yagi, Nicolás
Yunes. arXiv:1608.02582 [gr-qc]. 10.1016/j.physrep.2017.03.002. Phys.Rept. 681 (2017) 1-
72., @2017
153. Staykov, K., Doneva, D., Yazadjiev, S.. Moment-of-inertia–compactness universal relations in scalar-
tensor theories and R^2 gravity. Phys.Rev. D, 93, 2016, 084010. ISI IF:4.506
Cited in в:
514. Using gravitational-wave observations and quasi-universal relations to constrain the maximum
mass of neutron stars By Luciano Rezzolla, Elias R. Most, Lukas R. Weih. arXiv:1711.00314
[astro-ph.HE]., @2017
515. Scalarization of neutron stars with realistic equations of state By Zahra Altaha Motahar, Jose
Luis Blázquez-Salcedo, Burkhard Kleihaus, Jutta Kunz. arXiv:1707.05280 [gr-qc].
10.1103/PhysRevD.96.064046. Phys.Rev. D96 (2017) no.6, 064046., @2017
516. Towards Strong Field Tests of Beyond Horndeski Gravity Theories By Jeremy Sakstein,
Eugeny Babichev, Kazuya Koyama, David Langlois, Ryo Saito. arXiv:1612.04263 [gr-qc].
10.1103/PhysRevD.95.064013. Phys.Rev. D95 (2017) no.6, 064013., @2017
517. Approximate Universal Relations for Neutron Stars and Quark Stars By Kent Yagi, Nicolás
Yunes. arXiv:1608.02582 [gr-qc]. 10.1016/j.physrep.2017.03.002. Phys.Rept. 681 (2017) 1-
72., @2017
154. Ivanov, B. V.. A different approach to anisotropic spherical collapse with shear and heat radiation. Int. J.
Mod. Phys. D, 25, 4, World Scientific, 2016, ISSN:0218-2718, DOI:10.142/S0218271816500498, 165
0049. ISI IF:1.963
Cited in в:
page 44/47
518. Mohandal, R., R.Narain, S.D.Maharaj, Nonlinear equations in radiating stellar structures, J.
Math. Phys. 58 (2017) 072503, @2017
519. Вертоградов, В.Д., Исследование свойств вращающихся черных дыр и проблемы
гравитационного коллапса, PhD thesis, Рос. гос. педаг. университет, 2017, @2017
2017
155. Nissimov, E., Pacheva, S., Guendelman, E. Quintessential Inflation, Unified Dark Energy and Dark Matter,
and Higgs Mechanism. Bulgarian Journal of Physics, 44, 1, Heron Press Ltd., Sofia, 2017, ISSN:1310-
0157, 15-30
Cited in в:
520. S.Ahmad, R. Myrzakulov, M. Sami, Phys. Rev. D 96, 063515 (2017), @2017
521. Konstantinos Dimopoulos, Charlotte Owen, JCAP 1706 (2017) no.06, 027, @2017
522. L.Sebastiani, S.Vagnozzi, R.Myrzakulov, Adv.High Energy Phys. 2017 (2017)
3156915, @2017
523. C. van de Bruck, K.Dimopoulos, C.Longden, C.Owen, "Gauss-Bonnet-coupled Quintessential
Inflation", arxiv:1707.06839, @2017
524. S.Vagnozzi, Class. Quant. Grav. 34 (2017) 18, 185006, @2017
156. Nissimov, E., Pacheva, S., Stoilov, M., Guendelman, E. Einstein-Rosen 'Bridge' Revisited and Lightlike
Thin-Shell Wormholes. Bulgarian Journal of Physics, 44, 1, Heron Press Ltd., Sofia, 2017, ISSN:1310-
0157, 85-98
Cited in в:
525. A.Ovgun, K.Jusufi, Advances in High Energy Physics, Volume 2017, 1215254 (2017), @2017
157. Gerdjikov, V, Todorov, M, Kyuldjiev, A. Adiabatic interactions of Manakov solitons—Effects of cross-
modulation. Wave Motion, Vol. 71, Elsevier, 2017, ISSN:0165-2125,
DOI:dx.doi.org/10.1016/j.wavemoti.2016.08.004, 71-81. SJR:0.789, ISI IF:1.575
Cited in в:
526. Liu, Chiu, Clarkson, Chow Connection between the maximum displacements of rogue waves...
Chaos vol. 27, 091103 AIP publishing, @2017
158. Hristov, Kiril, Benini, Francesco, Zaffaroni, Alberto. Exact microstate counting for dyonic black holes in
AdS4. Physics Letters B, 771, 2017, DOI:10.1016/j.physletb.2017.05.076, 462-466. ISI IF:4.807
Cited in в:
527. Microstate counting of AdS4 hyperbolic black hole entropy via the topologically twisted index
Alejandro Cabo-Bizet (Buenos Aires, IAFE), Victor I. Giraldo-Rivera (ICTS, Mumbai),
Leopoldo A. Pando Zayas (Michigan U., MCTP). Jan 26, 2017. 55 pp. Published in JHEP 1708
(2017) 023, @2017
528. Localised and nonuniform thermal states of super-Yang-Mills on a circle Óscar J.C. Dias
(Southampton U.), Jorge E. Santos (Cambridge U., DAMTP), Benson Way (British Columbia
U.). Feb 24, 2017. 31 pp. Published in JHEP 1706 (2017) 029, @2017
529. BPS black holes from massive IIA on S6 Adolfo Guarino, Javier Tarrío (Brussels U., PTM &
Intl. Solvay Inst., Brussels). Mar 31, 2017. 20 pp. Published in JHEP 1709 (2017) 141, @2017
530. BPS black hole horizons from massive IIA Adolfo Guarino (Brussels U. & Intl. Solvay Inst.,
Brussels & Brussels U., PTM). Jun 6, 2017. 18 pp. Published in JHEP 1708 (2017) 100, @2017
page 45/47
531. Toward Microstate Counting Beyond Large N in Localization and the Dual One-loop Quantum
Supergravity James T. Liu (Michigan U., MCTP), Leopoldo A. Pando Zayas (Michigan U.,
MCTP & ICTP, Trieste), Vimal Rathee, Wenli Zhao (Michigan U., MCTP & Michigan U.,
MCTP). Jul 13, 2017. 15 pp. MCTP-17-08 e-Print: arXiv:1707.04197 [hep-th], @2017
532. Logarithmic Corrections to Entropy of Magnetically Charged AdS4 Black Holes Imtak Jeon
(Harish-Chandra Res. Inst.), Shailesh Lal (Paris, LPTHE & UPMC, Paris (main)). Jul 13, 2017.
5 pp. Published in Phys.Lett. B774 (2017) 41-45, @2017
533. Supersymmetric AdS2×Σ2 solutions from tri-sasakian truncation Parinya Karndumri
(Chulalongkorn U.). Jul 30, 2017. 30 pp. Published in Eur.Phys.J. C77 (2017) no.10,
689, @2017
534. Universal RG Flows Across Dimensions and Holography Nikolay Bobev (Leuven U.), P.
Marcos Crichigno (Amsterdam U.). Aug 16, 2017. 65 pp. e-Print: arXiv:1708.05052 [hep-
th], @2017
535. On the On-Shell: The Action of AdS4 Black Holes Nick Halmagyi, Shailesh Lal. Oct 26, 2017.
16 pp. e-Print: arXiv:1710.09580 [hep-th], @2017
536. A One-loop Test of Quantum Black Holes in Anti de Sitter Space James T. Liu, Leopoldo A.
Pando Zayas, Vimal Rathee, Wenli Zhao. Nov 3, 2017. 5 pp. LCTP-17-02 e-Print:
arXiv:1711.01076 [hep-th], @2017
537. Entropy functional and the holographic attractor mechanism Alejandro Cabo-Bizet, Uri Kol,
Leopoldo A. Pando Zayas, Ioannis Papadimitriou, Vimal Rathee. Dec 5, 2017. 34 pp. KIAS-
P17130, LCTP-17-07 e-Print: arXiv:1712.01849 [hep-th], @2017
159. Nissimov, E., Pacheva, S., Guendelman, E. Cosmology via Metric-Independent Volume-Form Dynamics.
Proceedings 2nd Karl Schwarzschild Meeting on Gravitational Physics (KMS 2015), Springer, 2017,
ISSN:0930-8989
Cited in в:
538. Tolkynay Myrzakul, Ertan Gudekli, Shynaray Myrzakul, Ratbay Myrzakulov, "Noether
symmetry of FRW cosmology with f - essence", arXiv:1705.09151, @2017
539. L.Sebastiani, S.Vagnozzi, R.Myrzakulov, Adv.High Energy Phys. 2017 (2017)
3156915, @2017
540. S.Vagnozzi, Class. Quant. Grav. 34 (2017) 18, 185006, @2017
160. Ivanov, B. V.. Analytical study of anisotropic compact star models. Eur. Phys. J. C, 77, 11, Springer, 2017,
ISSN:1434-6044, DOI:10.1140/epjc/s10052-017-5322-7, 738. ISI IF:5.331
Cited in в:
541. Sharma, R., Sh.Das, S.Thirukkanesh, Anisotropic extension of Finch and Skea stellar model,
Astrophys. Space Sci. 362 (2017) 232, @2017
542. Maurya, S.K., A.Banerjee, P.Channuie, Relativistic strange stars with charged anisotropic
matter, arXiv: 1711.03412 [gr-qc], @2017
161. Hristov, Kiril, Hosseini, Seyed Morteza, Zaffaroni, Alberto. An extremization principle for the entropy of
rotating BPS black holes in AdS5. Journal of High Energy Physics, 1707, 106, Springer, 2017, ISSN:1029-
8479, DOI:10.1007/JHEP07(2017)106, ISI IF:6.063
Cited in в:
543. On timelike supersymmetric solutions of Abelian gauged 5-dimensional supergravity Samuele
Chimento (Madrid, IFT). May 4, 2017. 29 pp. Published in JHEP 1707 (2017) 059, @2017
page 46/47
544. Toward Microstate Counting Beyond Large N in Localization and the Dual One-loop Quantum
Supergravity James T. Liu (Michigan U., MCTP), Leopoldo A. Pando Zayas (Michigan U.,
MCTP & ICTP, Trieste), Vimal Rathee, Wenli Zhao (Michigan U., MCTP & Michigan U.,
MCTP). Jul 13, 2017. 15 pp. MCTP-17-08 e-Print: arXiv:1707.04197 [hep-th], @2017
545. N = 1 supersymmetric indices and the four-dimensional A-model Cyril Closset (CERN),
Heeyeon Kim (Perimeter Inst. Theor. Phys.), Brian Willett (Santa Barbara, KITP). Jul 18, 2017.
92 pp. Published in JHEP 1708 (2017) 090 DOI: 10.1007/JHEP08(2017)090 e-Print:
arXiv:1707.05774 [hep-th], @2017
546. Black hole entropy in massive Type IIA Francesco Benini (Princeton, Inst. Advanced Study &
INFN, Trieste & SISSA, Trieste), Hrachya Khachatryan, Paolo Milan (SISSA, Trieste). Jul 21,
2017. 26 pp. SISSA-34-2017-FISI e-Print: arXiv:1707.06886 [hep-th], @2017
162. Hristov, Kiril, Hosseini, Seyed Morteza, Passias, Achilleas. Holographic microstate counting for AdS4
black holes in massive IIA supergravity. Hournal of High Energy Physics, 1710, 190, Springer, 2017,
ISSN:1029-8479, DOI:10.1007/JHEP10(2017)190, ISI IF:6.063
Cited in в:
547. A Universal Counting of Black Hole Microstates in AdS4 Francesco Azzurli (Milan Bicocca
U. & INFN, Milan Bicocca), Nikolay Bobev (Leuven U.), P. Marcos Crichigno (Amsterdam
U.), Vincent S. Min (Leuven U.), Alberto Zaffaroni (Milan Bicocca U. & INFN, Milan
Bicocca). Jul 13, 2017. 55 pp. e-Print: arXiv:1707.04257 [hep-th], @2017
548. Black hole entropy in massive Type IIA Francesco Benini (Princeton, Inst. Advanced Study &
INFN, Trieste & SISSA, Trieste), Hrachya Khachatryan, Paolo Milan (SISSA, Trieste). Jul 21,
2017. 26 pp. SISSA-34-2017-FISI e-Print: arXiv:1707.06886 [hep-th], @2017
549. Supersymmetric AdS2×Σ2 solutions from tri-sasakian truncation Parinya Karndumri
(Chulalongkorn U.). Jul 30, 2017. 30 pp. Published in Eur.Phys.J. C77 (2017) no.10,
689, @2017
550. Universal RG Flows Across Dimensions and Holography Nikolay Bobev (Leuven U.), P.
Marcos Crichigno (Amsterdam U.). Aug 16, 2017. 65 pp. e-Print: arXiv:1708.05052 [hep-
th], @2017
551. A One-loop Test of Quantum Black Holes in Anti de Sitter Space James T. Liu, Leopoldo A.
Pando Zayas, Vimal Rathee, Wenli Zhao. Nov 3, 2017. 5 pp. LCTP-17-02 e-Print:
arXiv:1711.01076 [hep-th], @2017
552. Spectrum universality properties of holographic Chern-Simons theories Yi Pang, Junchen
Rong, Oscar Varela. Nov 21, 2017. 35 pp. e-Print: arXiv:1711.07781 [hep-th], @2017
553. Entropy functional and the holographic attractor mechanism Alejandro Cabo-Bizet, Uri Kol,
Leopoldo A. Pando Zayas, Ioannis Papadimitriou, Vimal Rathee. Dec 5, 2017. 34 pp. KIAS-
P17130, LCTP-17-07 e-Print: arXiv:1712.01849 [hep-th], @2017
163. Stoilova, N.I., Van der Jeugt, J.. The Z_2 x Z_2-graded Lie superalgebra pso(2m+1|2n) and new
parastatistics representations. arXiv:1711.02136, 2017
Cited in в:
554. Naruhiko Aizawa, Generalization of Superalgebras to Color Su- peralgebras and Their
Representations, arXiv:1712.03008., @2017
164. Furlan, P., Petkova, V.B. W4 Toda example as hidden Liouville CFT. Phys. of Part. and Nucl. Lett., 14, 2,
2017, ISSN:1547-4771, DOI:https://doi.org/10.1134/S1547477117020108, 286-290. ISI IF:0.42
Cited in в:
page 47/47
555. V.Belavin, Y. Haraoka, R. Santachiara, Rigid Fuchsian systems in 2-dimensional conformal
field theories, arXiv:1711.04361, @2017
Submitted for publication
165. Doneva, D., Pappas, G.. Universal Relations and Alternative Gravity Theories. Invited chapter of the book
"Physics and Astrophysics of Neutron Stars", NewCompStar COST Action 1304, submitted for publication:
2017
Cited in в:
556. Implications from GW170817 and I-Love-Q relations for relativistic hybrid stars By Vasileios
Paschalidis, Kent Yagi, David Alvarez-Castillo, David B. Blaschke, Armen Sedrakian.
arXiv:1712.00451 [astro-ph.HE]., @2017
557. Neutron stars in vector-tensor theories By Ryotaro Kase, Masato Minamitsuji, Shinji
Tsujikawa. arXiv:1711.08713 [gr-qc]., @2017
558. I-Love-Q Relations for Neutron Stars in dynamical Chern Simons Gravity By Toral Gupta,
Barun Majumder, Kent Yagi, Nicolás Yunes. arXiv:1710.07862 [gr-qc]. 10.1088/1361-
6382/aa9c68. Class.Quant.Grav. 35 (2018) no.2, 025009., @2017
559. I-Love-Q to the extreme By Hector O. Silva, Nicolas Yunes. arXiv:1710.00919 [gr-qc].
10.1088/1361-6382/aa995a. Class.Quant.Grav. 35 (2018) no.1, 015005., @2017
166. Anguelova, L, Suranyi, P, Wijewardhana, L.C.R.. Systematics of Constant Roll Inflation.
arXiv:1710.06989 [hep-th], submitted for publication: 2017
Cited in в:
560. Asuka Ito and Jiro Sod, Anisotropic Constant-roll Inflation, arXiv:1710.09701 [hep-
th], @2017
167. Christova, E., Leader, E., Stoilov, M.. Consistency tests for the extraction of the Boer-Mulders an d Sivers
functions. ArXiv 1705.10613, submitted for publication: 2017
Cited in в:
561. Tanmay Maji, Dipankar Chakrabarti, Asmita Mukherjee, Sivers and $\cos 2φ$ Asymmetries in
Semi-inclusive Deep Inelastic Scattering in Light-front Holographic Model ,
arXiv:1711.02930, @2017
168. Bozhilov, P.. Giant magnon-like solution in Sch_5 x S^5. submitted for publication: 2017
Cited in в:
562. George Georgiou, Dimitrios Zoakos, "Giant magnons and spiky strings in the
Schrodinger/dipole-deformed CFT correspondence", arXiv:1712.03091 [hep-th], @2017