CURRICULUM VITAE PROF. DR. KATHY LÜDGE

Prof. Dr. Kathy LüdgeInstitut für Theoretische Physik, Sekr. EW7-1Technische Universität BerlinHardenbergstraße 36,10623 Berlin, GermanyTel.: 030-314 23002

E-Mail: kathy.luedge@tu-berlin.dehttp://www.tu-berlin.de/?ludge/

Scientific Career after Dissertation

since 04/2016 Professor at the Technische Universität Berlin, GermanyInstitute of Theoretical Physics, Specialist field: Nonlinear laser dynamics

10/2016 – 09/2017 Alexander von Humboldt Fellow, University of Auckland, New ZealandFeodor Lynen Scholarship for Experienced ResearchersTitle of the Project: Understanding the bifurcation structure of coupledmode-locked lasers for improving the regularity of fast optical pulse trains

10/2014 – 03/2016 Guest Professor at the Freie Universität Berlin, GermanyInstitute of Theoretical Physics

12/2011 – 09/2014 Research Assistant, PrivatdozentinInstitute of Theoretical Physics, Technische Universität Berlin, Germany

23.11.2011 Habilitation(venia legendi) for theoretical physics at theTechnische Universität BerlinTitle of the thesis: Modeling quantum-dot based laser devices

11/2003 – 11/2011 Research Associate(C1) within research group of Prof. Dr. E. Schöll,Institute of Theoretical Physics, Technische Universität Berlin, Germany

2006 Birth of daughter, subsequently parental leave

2003 Birth of son, subsequently parental leave

29.10.2003 Dr. rer. nat. (physics), Technische Universität Berlin, GermanySupervisor: Prof. Dr. W. Richter, Institute of Solid State PhysicsTitle of the thesis: Interface formation during epitaxial growth of Co layerson III-V semiconductor (001) surfaces,

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CURRICULUM VITAE PROF. DR. KATHY LÜDGE

CV and Scientific Career before Dissertation

10/2000 – 10/2003 Research Associate within the group of Prof. Dr. W. RichterInstitute of Solid State Physics, Technische Universität Berlin, Germany

04/2001 – 02/2002 Visiting Scientist within the group of Prof. C. PalmstrømDepartment of Chemical Engineering and Material Science,University of Minnesota, Minneapolis, USA

06/2000 – 07/2000 Visiting Scientist within the group of Prof. Dr.F. Bechstedt,Institute of Solid State Theory, Friedrich-Schiller-Univ. Jena, Germany

11/1997 – 05/1998 Student assistant within the group of Dr. Helge RiemannGrowth of bulk crystals, Institute of Crystal Growth (IKZ),Berlin, Germany

10/1995 – 09/2000 Studies of Physics, Technische Universität Berlin, GermanyMaster thesis within the group of Prof. Dr. W. Richter, Institute of SolidState Physics, Title of the thesis: Atomare Struktur phosphorhaltiger III-VHalbleiter im System In, Ga, P,

08/1992 – 07/1995 Abitur certificate,Albert-Einstein-Gymnasium Berlin,Germany

08/1990 – 07/1992 Heinrich-Hertz Spezialschule for Math and Physics, Berlin,Germany

08/1982 – 07/1990 Herman Fink Oberschule, Schulzendorf, Germany

17.01.1976 Born in Berlin, Germany

Research Experiences

◦ Modeling the light-matter interaction in optoelectronic devices on different levels ofcomplexity, from Bloch-equations to simplified rate-equation approaches

◦ Modeling many-body charge-carrier interaction in nano-structured optical devices,e.g., quantum-dot devices, optically pumped nanowire laser, and micro-resonator laser

◦ Investigating the nonlinear dynamics within the emitted light of different laser systems,i.e., integrated devices, mode-locked lasers and laser networks

◦ Bifurcation analysis of delay differential equations

◦ Controlling the output of laser devices with different setups,e.g., optical injection, optical self-feedback and electro-optical feedback loops

◦ Modelig of stochastic equations that inclde effects of spontaneous emission noise on,e.g., laser linewidth, timing jitter in mode-locked lasers, and mode-switching dynamics

◦ Asymptotic perturbation methods for system reduction

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CURRICULUM VITAE PROF. DR. KATHY LÜDGE

Awards and Scholarships

10/2016 - 9/2017 Feodor-Lynen Research Fellowship (11 month),Alexander von Humboldt foundation

06/2012 Karl-Scheel-Preis der Physikalischen Gesellschaft zu Berlin (PGzB)for excellent scientific research after the PhD

04/2001 DAAD grant for studies abroad (10 month),Department ChemicalEngineering and Material Science, University of Minnesota, USA

02/2001 Erwin-Stephan-Preis,Award for excellent and fast studies at the TU Berlin

07/2000 Heraeus-Studienförderpreis for physicsAward of the Heraeus-Stiftung and Phys. Gesellschaft zu Berlin

Funded Projects

◦ Principal investigator of project B9 of the Collaborative Research Center CRC 910 of theDFG, Project: Collective phenomena in laser networks with nonidentical unitsTitle of the CRC 910 (2015-2018): Control of self-organizing nonlinear systems: Theoreticalmethods and concepts of application

◦ Principal investigator of project B2 of the Collaborative Research Center CRC 787 of theDFG, Project: Dynamics of quantum dot based multi-section laser and amplifier structuresTitle of the CRC 787 (2012-2019):Semiconductor Nanophotonics: Materials, Models, Devices

◦ Associate Project Leader within the project A1 of the Graduate-School RTG 1558Project: Semiconductor laser dynamics far above threshold - nonequilibrium kinetics anddissipation.Title of the RTG 1558 (2013-2018):Nonequilibrium Collective Dynamics in Condensed Matter and Biological Systems

◦ DAAD Project Narrow linewidth semiconductor lasers for coherent communication systemsim Förderprogramm Projektbezogener Personenaustausch (PPP) with France(2018-2019)

◦ DAAD Project Nonlinear Photonics in Nanostructured Semiconductor Lasers im Förder-programm Projektbezogener Personenaustausch (PPP) with France(2014-2015)

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CURRICULUM VITAE PROF. DR. KATHY LÜDGE

Organised Workshops

◦ Tandem Workshop Grant on Pattern Dynamics in Nonlinear Optical Cavities funded by theMPIPKS (Max Planck Institute for the Physics of Complex Systems)Organisation of the Workshop in Dresden, Germany, August 2016 and in Auckland, Neu-seeland, August 2017 together with Prof. B. Krauskopf und Prof. N. Broderick

◦ Symposium Nonlinear dynamics in lasers: fundamental issues and novel applications,Dynamics Days Europe, Madrid, Spain, 06/2013,

◦ Workshop Nonlinear Dynamics in Semiconductor Lasers,Weierstrass Institute für Angewandte Analysis und Stochastic (WIAS), Berlin, 09/2012

Miscellaneous

◦ Associate Editor for the Journal IEEE Journal of Quantum Electronics

◦ Associate Editor for the Eurpean Physics Journal B Special Issue Non-Linear and ComplexDynamics in Semiconductors and Related Materials

◦ Member of IUPAP(The International Union of Pure and Applied Physics), Commission onLaser Physics and Photonics

◦ Referee of several journals from Physical Review, AIP, IEEE, OSA

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PUBLICATIONS PROF. DR. KATHY LÜDGE

Publikationen

Publications in peer reviewed journals

[1] D. Waldburger, C. G. E. Alfieri, S. M. Link, S. Meinecke, L. Jaurigue, K. Lüdge, and U. Keller,Multipulse instabilities of a femtosecond SESAM-modelocked VECSEL, Opt. Express 26, 21872(2018).

[2] S. Terrien, B. Krauskopf, N. G. R. Broderick, L. C. Jaurigue, and K. Lüdge, Q-switched pulsinglasers subject to delayed feedback: A model comparison, Phys. Rev. A accepted, (2018).

[3] S. Kreinberg, X. Porte, D. Schicke, B. Lingnau, C. Schneider, S. Höfling, K. Lüdge, and S. Reit-zenstein, Mutual coupling and synchronization of optically coupled quantum-dot micropillar lasersat ultra-low light levels, arXiv preprint 1808.01483 (2018).

[4] S. Holzinger, C. Redlich, B. Lingnau, M. Schmidt, M. von Helversen, J. Beyer, C. Schneider,M. Kamp, S. Höfling, K. Lüdge, X. Porte, and S. Reitzenstein, Tailoring the mode-switching dyna-mics in quantum-dot micropillar lasers via time-delayed optical feedback, Opt. Express accepted,(2018).

[5] A. Röhm, K. Lüdge Multiplexed networks: reservoir computing with virtual and real nodes,J. Phys. Commun. 2, 085007 (2018).

[6] A. Röhm, K. Lüdge, I. Schneider, Bistability in two simple symmetrically coupled oscillators withsymmetry-broken amplitude-and phase-locking, Chaos 28, 063114 (2018)

[7] B. Lingnau, K. Lüdge, Rabi-oscillation-enhanced frequency conversion in quantum-dot semicon-ductor optical amplifiers,Opt. Quantum Electron. 50, 111 (2018)

[8] L. C. Jaurigue, B. Krauskopf, and K. Lüdge, Multipulse dynamics of a passively mode-lockedsemiconductor laser with delayed optical feedback, Chaos 27, 11, 114301 (2017).

[9] C. Redlich, B. Lingnau, H. Huang, R. Raghunathan, K. Schires, P. J. Poole, F. Grillot, K. Lüdge,Linewidth rebroadening in quantum dot semiconductor lasers,IEEE J. Sel. Top. Quantum Electron. 23, 6, 1901110 (2017).

[10] B. Lingnau, B. Herzog, M. Kolarczik, U. Woggon, K. Lüdge, and N. Owschimikow, Dynamic phaseresponse and amplitude-phase coupling of self-assembled semiconductor quantum dots,Appl. Phys. Lett. 110, 241102 (2017).

[11] S. Meinecke, B. Lingnau, A. Röhm, and K. Lüdge, Stability in Optically Injected Two-State Quantum-Dot Lasers, Ann. Phys. (Berlin) 529, 1600279 (2017).

[12] B. Mayer, A. Regler, S. Sterzl, T. Stettner, G. Koblmüller, M. Kaniber, B. Lingnau, K. Lüdge and J. J.Finley, Long-term mutual phase locking of picosecond pulse pairs generated by a semiconductornanowire laser, Nature Comm. 8,15521(2017)

[13] M. Zajnulina, B. Lingnau, K. Lüdge,Four-wave Mixing in Quantum Dot Semiconductor Optical Amplifiers: A Detailed Analysis of theNonlinear Effects, IEEE Journal of Selected Topics in Quantum Electronics 23, 3000112(2017).

[14] P. Munnelly, B. Lingnau, M. M. Karow, T. Heindel, M. Kamp, S. Höfling, K. Lüdge, C. Schneider,S. Reitzenstein, Optoelectronic feedback with a monlithically integrated quantum dot micropillardetector and laser assembly, Optica 4 (3), 303-306 , (2017).

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PUBLICATIONS PROF. DR. KATHY LÜDGE

[15] E. Schlottmann, S. Holzinger, B. Lingnau, K. Lüdge, C. Schneider, M. Kamp, S. Höfling, J. Wol-ters, S. Reitzenstein, Injection Locking of Quantum-Dot Microlasers Operating in the Few-PhotonRegime, Phys. Rev. Appl. 6, 044023 (2016).

[16] B. Herzog, B. Lingnau, M. Kolarczik, Y. Kaptan, D. Bimberg, A. Maaßorf, U. W. Pohl, R. Rosa-les, J.-H. Schulze, A. Strittmatter, M. Weyers, U. Woggon, K. Lüdge, N. Owschimikow, Strongamplitude-phase coupling in submonolayer quantum dots, Appl. Phys. Lett. 109, 201102 (2016).

[17] B. Lingnau, K. Lüdge, B. Herzog, M. Kolarczik, Y. Kaptan, U. Woggon and N. Owschimikow,Ultrafast gain recovery and large nonlinear optical response in submonolayer quantum dots, Phys.Rev. B 94, 014305 (2016).

[18] A. Röhm, F. Böhm and K. Lüdge, Small chimera states without multistability in a globally delay-coupled network of four lasers, Phys. Rev. E 94, 042204 (2016).

[19] L. C. Jaurigue, E. Schöll and K. Lüdge, Suppression of Noise-Induced Modulations in MultidelaySystems, Phys. Rev. Lett. 117, 154101 (2016).

[20] C. Redlich, B. Lingnau, S. Holzinger, E. Schlottmann, S. Kreinberg, C Schneider, M. Kamp, S.Höfling, J. Wolters, S. Reitzenstein, and K. Lüdge, Mode-switching induced super-thermal bun-ching in quantum-dot microlasers, New J. Phys. 18, 063011 (2016).

[21] O. Nikiforov, L. Jaurigue, L. Drzewietzki, K. Lüdge, and S. Breuer, Experimental demonstration ofchange of dynamical properties of a passively mode-locked semiconductor laser subject to dualoptical feedback by dual full delay-range tuning, Opt. Express 24, 14301 (2016).

[22] L. C. Jaurigue, O. Nikiforov, E. Schöll, S. Breuer, and K. Lüdge,Dynamics of a passively mode-locked semiconductor laser subject to dual-cavity optical feedback,Phys. Rev. E 93, 022205 (2016).

[23] R. Aust, T. Kaul, C.-Z. Ning, B. Lingnau, and K. Lüdge,Modulation response of nanolasers: What rate equation approaches miss,Opt. Quantum Electron. 48, 109 (2016).

[24] L. Jaurigue, A. Pimenov, D. Rachinskii, E. Schöll, K. Lüdge, and A. G. Vladimirov,Timing jitter of passively mode-locked semiconductor lasers subject to optical feedback; a semi-analytic approach, Phys. Rev. A 92, 053807 (2015).

[25] B. Lingnau, and K. Lüdge, Analytic Characterization of the Dynamic Regimes of Quantum-DotLasers, Photonics 2, 402 (2015).

[26] F. Böhm, A. Zakharova, E. Schöll, and K. Lüdge, Amplitude-phase coupling drives chimera statesin globally coupled laser networks, Phys. Rev. E 91, 040901 (R) (2015).

[27] A. Röhm, B. Lingnau, and K. Lüdge,Understanding Ground-State Quenching in Quantum-DotLasers, IEEE J. Quantum Electron. 51, 2000211 (2015).

[28] A. Röhm, B. Lingnau, and K. Lüdge, Ground-state modulation-enhancement by two-state lasingin quantum-dot laser devices, Appl. Phys. Lett. 106, 191102 (2015).

[29] Y. Kaptan, A. Röhm, B. Herzog, B. Lingnau, H. Schmeckebier, D. Arsenijevic, V. Mikhelashvili, O.Schops, M. Kolarczik, G. Eisenstein, D. Bimberg, U. Woggon, N. Owschimikow, and K. Lüdge,Stability of a quantum dot excited state laser during simultaneous ground state amplification,Appl. Phys. Lett. 105, 191105-1 (2014).

[30] N. B. Grosse, N. Owschimikow, R. Aust, B. Lingnau, A. Koltchanov, M. Kolarczik, K. Lüdge, andU. Woggon, Pump-probe quantum state tomography in a semiconductor optical amplifier,Opt. Express 22, 26, 32520 (2014).

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PUBLICATIONS PROF. DR. KATHY LÜDGE

[31] C. Otto, L. Jaurigue, E. Schöll, and K. Lüdge, Optimization of timing jitter reduction by opticalfeedback for a passively mode-locked laser, IEEE Photonics Journal 6, 1501814 (2014).

[32] C. Wang, B. Lingnau, K. Lüdge, J. Even, and F. Grillot , Enhanced Dynamic Performance ofQuantum Dot Semiconductor Lasers Operating on the Excited State,IEEE J. Quantum Electron. 50 ,723 (2014).

[33] C. Otto, B. Lingnau, E. Schöll, and K. Lüdge, Manipulating coherence resonance in a quantumdot semiconductor laser via electrical pumping, Opt. Express 22, 13288 (2014).

[34] B. Lingnau, W. W. Chow, and K. Lüdge, Amplitude-phase coupling and chirp in quantum-dotlasers: influence of charge carrier scattering dynamics, Opt. Express 22, 4867 (2014).

[35] F. Schulze, B. Lingnau, S.M. Hein, A. Carmele, E. Schöll, K. Lüdge, A. Knorr, Feedback-InducedSteady-State Light Bunching Above the Lasing Threshold, Phys. Rev. A 89, 4, 041801(R) (2014).

[36] M. Wegert, D. Schwochert, E. Schöll, and K. Lüdge, Integrated quantum-dot laser devices: Mo-dulation stability with electro-optic modulator, Opt. Quantum Electron. 46, 1337 (2014).

[37] M. Kolarczik, N. Owschimikow, J. Korn, B. Lingnau, Y. Kaptan, D. Bimberg, E. Schöll, K. Lüd-ge, and U. Woggon, Quantum coherence induces pulse shape modification in a semiconductoroptical amplifier at room temperature, Nat. Commun. 4, 2953 (2013).

[38] B. Lingnau, W. W. Chow, E. Schöll, and K. Lüdge, Feedback and injection locking instabilities inquantum-dot lasers: a microscopically based bifurcation analysis,New J. Phys. 15, 093031 (2013).

[39] D. Ziemann, R. Aust, B. Lingnau, E. Schöll, and K. Lüdge, Optical injection enables coherenceresonance in quantum-dot lasers, Europhys. Lett. 103, 14002 (2013).

[40] B. Lingnau, W. W. Chow, E. Schöll, and K. Lüdge, Failure of the α-factor in describing quantum-dot laser dynamical instabilities and chaos, Phys. Rev. E 86, 065201(R) (2012).

[41] K. Lüdge, B. Lingnau, C. Otto, and E. Schöll, Understanding electrical and optical modulationproperties of semiconductor quantum-dot lasers in terms of their turn-on dynamics, NonlinearPhenom. Complex Syst. 15, 350 (2012).

[42] S. Wilkinson, B. Lingnau, J. Korn, E. Schöll, and K. Lüdge, Influence of Noise on Quantum-DotSemiconductor Optical Amplifiers, IEEE J. Sel. Top. Quantum Electron. 19, 1900106 (2013).

[43] C. Otto, K. Lüdge, A. Vladimirov, M. Wolfrum, and E. Schöll,Delay induced dynamics and jitter reduction of passively mode-locked semiconductor laser sub-ject to optical feedback, New J. Phys 14, 113033 (2012).

[44] J. Pausch, C. Otto, E. Tylaite, N. Majer, E. Schöll and K. Lüdge,Optically injected quantum dot lasers - impact of nonlinear carrier lifetimes on frequency lockingdynamics, New J. Phys. 14, 053018 (2012).

[45] B. Globisch, C. Otto, E. Schöll, and K. Lüdge,Influence of carrier lifetimes on the dynamical behavior of quantum-dot lasers subject to opticalfeedback, Phys. Rev. E 86, 046201 (2012).

[46] B. Lingnau, K. Lüdge, W. W. Chow and E. Schöll,Influencing modulation properties of quantum-dot semiconductor lasers by electron lifetime engi-neering. Appl. Phys. Lett. 101, 131107 (2012).

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PUBLICATIONS PROF. DR. KATHY LÜDGE

[47] C. Otto, B. Globisch, K. Lüdge, E. Schöll, T. Erneux,Complex Dynamics of Semiconductor Quantum Dot Lasers Subject to Delayed Optical Feedback,Int. J. Bif. Chaos 22, 10, 1250246 (2012).

[48] K. Lüdge, E. Schöll, E. A. Viktorov, and T. Erneux, Analytic approach to modulation properties ofquantum dot lasers, J. Appl. Phys. 109(9), 103112 (2011).

[49] N. Majer, S. Dommers-Völkel, J. Gomis-Bresco, U. Woggon, K. Lüdge and E. Schöll, Impact ofcarrier-carrier scattering and carrier heating on pulse train dynamics of quantum dot semicon-ductor optical amplifiers, Appl. Phys. Lett. 99, 131102 (2011).

[50] M. Wegert, N. Majer, K. Lüdge, S. Dommers-Völkel, J.Gomis-Bresco, A. Knorr, U. Woggon, andE. Schöll, Nonlinear Gain Dynamics of Quantum Dot Optical Amplifiers,Semicond. Sci. Technol. 26, 014008 (2011).

[51] Y. Su, A. Carmele, M. Richter, K. Lüdge, E. Schöll, D. Bimberg, and A. Knorr,Theory of single quantum dot lasers: Pauli-blocking enhanced anti-bunching,Semicond. Sci. Technol. 26, 014015 (2011).

[52] K. Lüdge, R. Aust, G. Fiol, M. Stubenrauch, D. Arsenijevic, D. Bimberg and E. Schöll, Large SignalResponse of Semiconductor Quantum-Dot Lasers,IEEE J. Quantum Electron. 46(12), 1755 (2010).

[53] N. Majer, K. Lüdge, and E. Schöll, Cascading enables ultrafast gain recovery dynamics of quan-tum dot semiconductor optical amplifiers. Phys. Rev. B, 82, 235 301 (2010).

[54] B. Lingnau, K. Lüdge, E. Schöll, and W. W. Chow,Many-body and nonequilibrium effects on relaxation oscillations in a quantum-dot microcavitylaser, Appl. Phys. Lett. 97(11), 111102 (2010).

[55] K. Lüdge and E. Schöll, Nonlinear dynamics of doped semiconductor quantum dot lasers,Eur. Phys. J. D 58, 167 (2010).

[56] C. Otto, K. Lüdge, and E. Schöll, Modeling quantum dot lasers with optical feedback: sensitivityof bifurcation scenarios, phys. stat. sol. (b) 247(4), 829 (2010).

[57] K. Lüdge and E. Schöll, Quantum-dot lasers – desynchronized nonlinear dynamics of electronsand holes, IEEE J. Quantum Electron. 45(11), 1396 (2009).

[58] K. Lüdge, M. J. P. Bormann, E. Malic, P. Hövel, M. Kuntz, D. Bimberg, A. Knorr, and E. Schöll,Turn-on dynamics and modulation response in semiconductor quantum dot lasers,Phys. Rev. B 78(3), 035316 (2008).

[59] T. Herrmann, K. Lüdge, W. Richter, K. G. Georgarakis, P. Poulopoulos, R. Nunthel, J. Lindner,M. Wahl and N. Esser, Optical anisotropy and magneto-optical properties of Ni on preoxidizedCu(110), Phys. Rev. B 73(13), 134408 (2006).

[60] K. Lüdge, P. Vogt, W. Richter, B. O. Fimland, W. Braun and N. Esser, Metallic nanostructures onCo/GaAs(001)(4×2) surfaces, J. Vac. Sci. Technol. B 22(4), 2008 (2004).

[61] K. Lüdge, P. Vogt, W. Braun,W. Richter, and N. Esser, Cobalt growth on InGaP(001)(2×4): Inter-face formation, J. Vac. Sci. Technol. B 21(4), 1749 (2003)

[62] K. Lüdge, B. D. Schultz, P. Vogt, M. M. R. Evans, W. Braun, C. J. Palmstrom, W. Richter andN. Esser, Structure and interface composition of Co layers grown on As-rich GaAs(001) c(4×4)surfaces, J. Vac. Sci. Technol. B 20(4), 1591(2002).

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PUBLICATIONS PROF. DR. KATHY LÜDGE

[63] B. D. Schultz, H. H. Farrell, M. M. R. Evans, K. Lüdge and C. J. Palmstrom, ErAs interlayers forlimiting interfacial reactions in Fe/GaAs(100) heterostructures,J. Vac. Sci. Technol. B 20(4) ,1600 (2002).

[64] T. Herrmann, K. Lüdge, W. Richter, N. Esser, P. Poulopoulos, J. Lindner, K. Baberschke, Growthphases and optical anisotropy of Co on preoxidized Cu(110),Phys. Rev. B 64(13), 184424 (2001).

[65] P. Vogt, K. Lüdge, M. Zorn, M. Zorn, M. Pristovsek, W. Braun, W. Richter, N. Esser, Surfacestructure of ordered InGaP(001): The (2×4) reconstruction, Phys. Rev. B 62, 12601 (2000).

[66] K. Lüdge, P. Vogt, O. Pulci, N. Esser, F. Bechstedt and W. Richter, Clarification of the GaP(001)(2×4) Ga-rich reconstruction by scanning tunneling microscopy and ab initio theory,Phys. Rev. B 62(16), 11046 (2000).

[67] O. Pulci, K. Lüdge, P. Vogt, N. Esser, W. G. Schmidt, W. Richter, F. Bechstedt, First-principlesstudy of (2×1) and (2×2) phosphorus-rich InP(001) surfaces, Surf. Sci. 464, 272-282 (2000).

Book chapters

[68] K. Lüdge Chaotisches Laserlicht: Strukturbildung in der Zeitdömane, in: Unsere Welt der Physik-Physik von Physikerinnen, Hrsg. Cornelia Denz, Deborah Duchardt, Andrea Bossmann; Verlag:Springer-Spektrum (2017).

[69] B. Lingnau and K. Lüdge, Quantum Dot Semiconductor Optical Amplifiers , Handbook of Opto-electronic Device Modeling and Simulation, ISBN 9781498749466, Taylor & Francis, (2017).

[70] F. Böhm, and K. Lüdge, Exploiting multi-stability to stabilize chimera states in all-to-all coupledlaser networks, Control of Self-Organizing Nonlinear Systems,Springer, ISBN 978-3-319-28027-1, (2016).

[71] B. Lingnau, and K. Lüdge, Quantenpunktlaser - Laserlicht auf den Punkt gebracht,Physik unserer Zeit 45, 3, 140 (2014).

[72] K. Lüdge, Modeling Quantum Dot based Laser Devices, Chap. 1 in Nonlinear Laser Dynamics -From Quantum Dots to Cryptography (Ed. K. Lüdge), WILEY-VCH Weinheim, ISBN 978-3-527-41100-9, (2011)

[73] C. Otto, K. Lüdge, E. Viktorov, and T. Erneux, Quantum dot laser tolerance to optical feedback,Chap. 6 in Nonlinear Laser Dynamics- From Quantum Dots to Cryptography (Ed. K. Lüdge),WILEY-VCH Weinheim, ISBN 978-3-527-41100-9, (2011)

Editorship

[74] Nonlinear Laser Dynamics- From Quantum Dots to Cryptography, edited by K. Lüdge (WILEY-VCH Weinheim, 2011), ISBN 978-3-527-41100-9

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