Alexander SeidelJuly, 2021

Personal facts :

Alexander SeidelPhysics Department, CB 1105Washington University1 Brookings DriveSt. Louis, MO 63130-4899, USAPhone:(314) 935-8933Fax: (314) 935-6219Office: 355 Compton

Education:

2003 PhD in Physics received from MIT in September 2003,Thesis Advisor: Prof. Patrick A. Lee

1997 Vordiplom (=Intermediate Diploma) in physicsUniversity of Bayreuth, Germany

Employment:

July 2013-present:

Associate Professor, Department of Physics,Washington University in St Louis

2008-2013 Assistant Professor, Department of Physics,Washington University in St Louis

2006-2007 Postdoctoral Associate at the National High MagneticField Laboratory, Tallahassee

1

2003-2006 Postdoctoral Fellow at U.C. Berkeley/LBNL,since September 2003, working in Prof. Dung-Hai Lee’s group

1999-2003 Research Assistant, MIT Condensed Matter Theory GroupAdvisor: Prof. Patrick Lee

Scholarships:

1994-2001 Scholar of the Studienstiftung des Deutschen Volkes(German National Scholarship Foundation)

Grants and Awards:

2020 Microscopic Theories of Quantum Matter , National Science Foundation,DMR Grant No. 2029401,12/01/20-11/30/23, $315,000

2012 Properties of topologically ordered matter , National Science Foundation,DMR Grant No. 1206781, 09/01/12-08/31/15, $300,000

2010 Theory of Topological Optical One-Way Waveguides,Center For Materials Innovation, 08/31/10 – 08/31/11,$49727.77, Co-PI with Jung-Tsung Shen

2009 Properties of topologically ordered matter , National Science Foundation,DMR Grant No. 0907793, 07/19/09-07/18/12, $240,000

2009 A Controlled Study of Frustrated Magnetism in Layered TriangularAntiferromagnets, Center For Materials Innovation, 08/31/09 – 08/31/10,$38,220, Co-PI with S. Solin and Z. Nussinov

2008 A Controlled Study of Frustrated Magnetism in Layered TriangularAntiferromagnets, Center For Materials Innovation, 08/31/08-08/31/09,$30,000, Co-PI with S. Solin and Z. Nussinov

2007 I2CAM Travel Award, $1,500

2

As Co-PI:

Imaging Goggles for Fluorescence-Guided Surgery,National Institutes of Health,04/01/2021 - 03/31/2025, $2,205,566 (PI: Samuel Achilefu)

Research interests:

strongly correlated electron systemstopological phasesfractional quantum Hall effectfrustrated quantum magnetismphysics in reduced dimensionstopology and geometry in condensed matter physicsanyonsflat band solidsfractional Chern insulatorsbosonizationentanglement in condensed matterexactly solvable model systems

Synergistic activities:

Refereeingnpj Quantum MaterialsPhysical Review LettersPhysical Review BEurophysics LettersJournal of Statistical MechanicsNew Journal of PhysicsThe National Science FoundationFoundation for Fundamental Research on Matter (Netherlands)Oxford University Press, the International Center for AdvancedRenewable Energy and SustainabilityJournal of Physics: Conference SeriesJournal of Physics B: Atomic, Molecular and Optical Physics;

3

Editorial work

(2017-present)

Frontiers in Physics (impact factor: 2.638), Review Editor

Organizing

(2021)

Summer Colloquium Series on“Thermalization and Equilibration Dynamics In Quantum and Classical Many-Body Systems”

co-organizer: Alioscia Hamma, UMB

Diversity Outreach

(2016-2018)

Co-organizer and of a post-baccalaureate program inMathematics, Physics, and Earth and Planetary Sciences atWashington University in St. Louis, aiming to increase theenrollment of traditionally underrepresented and underservedminorities in STEM areas at Washington University and elsewhere

(2016-present)

Mentor at the National Mentoring Communityprogram of the American Physical Society

WashU Community Activities

(2018-present)

Coach for the annualWilliam Lowell Putnam Mathematical Competition

Key Departmental Roles

(2018-present)

4

Chair of the Physics Graduate Admissions Committee

Center Memberships

(2019-present)

Center for Quantum Sensors, WashU

Other Memberships

(2003-present)

American Physics Society

Invited Talks:

The University of ChicagoKadanoff SeminarChicago, IL (via Zoom), December 14, 2020

Saint Louis UniversityPhysics ColloquiumSaint Louis, MO, February 21, 2020The Hidden Orders of Matter

Illinois State UniversityPhysics ColloquiumNormal, IL, November 12, 2019The Hidden Orders of Matter

The University of Texas at DallasPhysics ColloquiumRichardson, TX, October 2, 2019The Hidden Orders of Matter

Renmin UniversityCondensed Matter SeminarBeijing, China, June 26, 2019

5

Entangled Pauli Principles: The DNA of Fractional Quantum Hall Fluids

Pennsylvania State UniversityCondensed Matter SeminarState College, PA, March 20, 2019Composite Fermions in Fock space: Parent Hamiltonians

Truman State UniversityPhysics ColloquiumKirksville, MO, November 28, 2018Hidden Order in Topological Phases: Entangled Pauli Principles

Kavli Institute for Theoretical SciencesKITS mini-workshop on Fractional Quantum Hall States andTopological Quantum ComputationBeijing, China, July 5, 2018Entangled Pauli Principles: The DNA of Fractional Quantum Hall Fluids

University of InnsbruckCondensed matter seminarInnsbruck, Austria, June 14, 2018Entangled Pauli Principles: The DNA of Fractional Quantum Hall Fluids

Technical University of MunichCondensed matter seminarGarching, June 11, 2018Entangled Pauli Principles: The DNA of Fractional Quantum Hall Fluids

University of CologneCondensed matter seminarCologne, June 8, 2018Entangled Pauli Principles: The DNA of Fractional Quantum Hall Fluids

Washington University in St. LouisSaturday Science Public LecturesSt. Louis, MO, April 21, 2018Topological phases of matter

6

University of Illinois at Urbana-Champaign,Condensed matter seminarUrbana, IL, October 26, 2017SU(2)-invariant topological quantum spin liquids

University of KentuckyLecture Mini-Series (2 lectures)Lexington, KY, April 18-19, 2017Coherent states and braiding statistics in Abelian andNon-Abelian quantum Hall States

University of KentuckyCondensed Matter SeminarLexington, KY, April 18, 2017Parent Hamiltonians and correlation functions for thenearest neighbor resonating valence bond state on the kagome lattice

Florida State UniversityPhysics ColloquiumTallahassee, FL, March 9, 2017Topological quantum spin liquids

Washington University in St. LouisSaturday Science Public LecturesSt. Louis, MO, November 19, 2016Quantum meets Classical: The Superconducting State

University of California at BerkeleyLee group research forumBerkeley, CA, November 2, 2016Factorization of the wave function in 1d ladder systems

Nanjing UniversityCondensed Matter Blackboard SeminarNanjiang, China, June 21, 2016Flat Chern Bands: Topology vs. Geometry in Tight Binding Models

Nanjing University

7

Condensed Matter SeminarNanjiang, China, June 21, 2016Quantum Hall Hamiltonians as frustration free lattice models

Zhejiang UniversityCondensed Matter SeminarHangzhou, China, June 20, 2016Quantum Hall Hamiltonians as frustration free lattice models

Indiana University BloomingtonCondensed Matter SeminarBloomington, IN, April 8, 2016Quantum Hall Hamiltonians as frustration free lattice models

Max Planck Institute for the Physics of Complex SystemsCondensed Matter SeminarDresden, Germany, February 5, 2015Quantum Hall Hamiltonians as frustration free lattice models

National High Magnetic Field LaboratoryCondensed Matter SeminarTallahassee, FL, December 5, 2014Quantum Hall states from frustration free lattice models

Indiana University-Purdue University IndianapolisPhysics ColloquiumIndianapolis, IN, April 3rd 2014Topological quantum spin liquids

Universitat InnsbruckCondensed matter seminarInnsbruck, Austria, August 1, 2013Parent Hamiltonians and correlation functions for the nearest neighborresonating valence bond state on the Kagomelattice

Max Planck Institut fur Physik komplexer SystemeCondensed matter seminarDresden, Germany, July 15, 2013

8

Parent Hamiltonians and correlation functions for the nearest neighborresonating valence bond state on the Kagome lattice

Simons Center for Geometry and PhysicsCondensed matter seminarStony Brook, NY, June 5, 2013Parent Hamiltonians and correlation functions for the nearest neighborresonating valence bond state on the Kagomelattice

Washington University in St. LouisColloquiumSt. Louis, September 19, 2012A short history of symmetry breaking in quantum antiferromagnets

Nordita Program on Topological States of Matter:Insulators, Superconductors, and Quantum Hall LiquidsStockholm, August 15, 2012Heat equation approach to geometric changes in the torus Laughlin-state

RWTH Aachen UniversityCondensed Matter/Quantum Information SeminarAachen, Germany, July 19, 2012The bare essentials of topological orders in fractional quantum Hall liquids

Ohio State UniversityCondensed Matter Theory SeminarColumbus, OH, February 6, 2012The bare essentials of topological orders in fractional quantum Hall liquids

Florida State UniversityPhysics ColloquiumTallahassee, FL, January 12, 2012The bare essentials of topological orders in fractional quantum Hall liquids

University of CincinnatiCinciNNI Tristate MeetingCincinnati, OH, November 19, 2011The bare essentials of topological orders in fractional quantum Hall liquids

9

University of CincinnatiCondensed Matter SeminarCincinnati, OH, November 18, 2011Entanglement Entropy of Fermi Liquids via Multi-dimensional Bosonization

Washington University in St. LouisPublic Saturday LectureSt. Louis, MO, October 15, 2011h – the constant that quantized the world

University of FloridaCondensed Matter SeminarGainesville, FL, September 12, 2011The bare essentials of topological orders in fractional quantum Hall liquids

Fudan UniversityCondensed Matter SeminarShanghai, China, July 25, 2011The bare essentials of topological orders in fractional quantum Hall liquids

Zhejiang UniversityCondensed Matter SeminarHangzhou, China, June 29, 2011Gapless excitations in the Haldane Rezayi state: The thin torus limit

Zhejiang UniversityCondensed Matter SeminarHangzhou, China, June 28, 2011The bare essentials of topological orders in fractional quantum Hall liquids

Northwestern UniversityCondensed Matter SeminarEvanston, IL, February 17, 2011The bare essentials of topological orders in fractional quantum Hall liquids

UC BerkeleyQuantum Materials Seminar,

10

Berkeley, CA, May 4, 2010An RVB Hamiltonian for the kagome lattice

National High Magnetic Field LaboratoryCondensed Matter SeminarTallahasse, FL, January 15, 2010An RVB Hamiltonian for the kagome lattice

University of KentuckyPhysics ColloquiumLexington, KY, October 16, 2009The bare essentials of topological orders in fractional quantum Hall liquids

Johns Hopkins UniversityCondensed Matter SeminarBaltimore, MA, December 2, 2009An RVB Hamiltonian for the kagome lattice

Blackboard Seminar at the Nordita Program on Quantum Hall Physics –Novel systems and applications, Stockholm, August 24, 2009The nitty-gritty details of deriving Pfaffian statistics through the 1D coherentstate representation

Nordita Program on Quantum Hall Physics – Novel systems andapplications, Stockholm, August 18, 2009Braiding Statistics through the 1D Coherent State Representation

KITP Program for Low Dimensional Electron Systems,Santa Barbara, CA, June 9, 2009Valence Bond States on the Kagome Lattice:Linear Independence and RVB-Hamiltonian

University of Illinois at Urbana-Champaign,Condensed matter seminarUrbana, IL, April 6, 2009Quantum Hall states out of charge density waves

KITP conference on New Directions in Low Dimensional Electron Systems,

11

Santa Barbara, CA, February 24, 2009Pfaffian Statistics through the 1D Coherent State Representation

University of UlmTheoretical ColloquiumUlm, Germany, January 15, 2009Quantum Hall states out of charge-density waves

Indiana University BloomingtonLENS SeminarBloomington, IN, November 10, 2008Quantum Hall states out of charge-density waves

National High Magnetic Field LaboratoryCondensed Matter Theory Blackboard SeminarTallahassee, FL, November 14, 2007An organization principle for abelian and non-abelianquasi-particles in fractional quantum Hall states

Nanjing UniversityCondensed Matter SeminarNanjing, China, July 16, 2007Abelian and non-abelian quasi-particles as domainwall type defects

Kavli Institute for Theoretical Physics in China (KITPC)talk given at Workshop on Quantum Phases of MatterBeijing, China, June 18, 2007Abelian and non-abelian quasi-particles as domainwall type defects

Louisiana State UniversityGeneral Physics SeminarBaton Rouge, LA, March 12, 2007A Unifying Perspective on Charge Fractionalization

University of VirginiaCondensed Matter Seminar

12

Charlottesville, VA, February 19, 2007A Unifying Perspective on Charge Fractionalization

Washington University in St LouisPhysics ColloquiumSt. Louis, MO, January 31, 2007A Unified View on Charge Fractionalization

National High Magnetic Field LaboratoryCondensed Matter SeminarTallahassee, FL,September 8, 2006Fractionalization narrowly explained

University of California at BerkeleyQuantum Materials SeminarBerkeley, CA, August 10, 2006Fractionalization narrowly explained

McMaster UniversityPhysics ColloquiumHamilton, Ontario, February 15, 2006Incompressible Quantum Liquids and Conservation Laws

National Tsing Hua University, TaiwanMini-Workshop on Topological Aspects of Condensed Matter Physics,Hsinchu, Taiwan, September 12, 2005Incompressible Quantum Liquids and Conservation Laws

University of California at Santa CruzPhysics ColloquiumSanta Cruz, CA, May 5, 2005How to avoid classical order in quantum matter

ICTP TriesteConference on Higher Dimensional Quantum Hall Effect,Chern-Simons Theory,and Non-Commutative Geometryin Condensed Matter Physics and Field TheoryTrieste, Italy, March 4, 2005

13

Classical order, topological order and duality

University of California at Santa CruzCondensed Matter SeminarSanta Cruz, CA, February 4, 2005Classical order, topological order and duality

Columbia UniversityCondensed Matter SeminarNew York, NY, February 27, 2003Doped dimerized spin chains: Another path to superconductivity

Stanford UniversityCondensed Matter SeminarStanford, CA, January 28, 2003Doped dimerized spin chains: Another path to superconductivity

University of California at BerkeleyCondensed Matter Theory Seminar Berkeley, CA, January 27, 2003Doped dimerized spin chains: Another path to superconductivity

Kavli Institute for Theoretical PhysicsCondensed Matter SeminarSanta Barbara, CA, January 23, 2003Doped dimerized spin chains: Another path to superconductivity

Princeton UniversityCondensed Matter SeminarPrinceton, NY, January 20, 2003Doped dimerized spin chains: Another path to superconductivity

Publications

[1] N. S. Srivatsa, Julia Wildeboer, Alexander Seidel, Anne E. B. NielsenQuantum many-body scars with chiral topological order in 2D and

14

critical properties in 1DPhys. Rev. B 102, 235106 (2020)

[2] Julia Wildeboer, Alexander Seidel, N. S. Srivatsa, Anne E. B. Nielsen, Onur ErtenTopological Quantum Many-Body Scars in Quantum Dimer Modelson the Kagome LatticearXiv:2009.00022, under review at PRL

[3] Julia Wildeboer, Zohar Nussinov, Alexander SeidelExact Solution and Correlations of a Quantum Dimer Model on theCheckerboard LatticePhys. Rev. B 102, 020401 (2020)

[4] Duanwen Shen, Baogang Xu, Kexian Liang , Rui Tang, Gail P. Sudlow,Christopher Egbulefu, Kevin Guo, Avik Som, Rebecca Gilson, Dolonchampa Maji,Suman Mondal, LeMoyne Habimana-Griffin, and Walter J. Akers, Shunqiang Li,Yang Liu, Sharon Bloch, Sid Kurkure, Zohar Nussinov, Alexander Seidel,Shaw-Wei D. Tsen, and Samuel AchilefuSelective imaging of solid tumours via the calcium-dependent high-affinity bindingof a cyclic octapeptide to phosphorylated Annexin A2Nature Biomedical Engineering 4, 298 (2020)

[5] Sumanta Bandyopadhyay, Gerardo Ortiz, Zohar Nussinov, Alexander SeidelLocal two-body parent Hamiltonians for the entire Jain sequencePhys. Rev. Lett. 124, 196803 (2020)

[6] Julia Wildeboer, Alexander SeidelEntanglement studies of resonating valence bonds on the frustrated square latticePhys. Rev. B 101, 224406 (2020)

[7] Hao Wang, Alexander Seidel, Kun Yang, Fu-Chun ZhangInterlayer correlated fractional quantum Hall state in the ν = 4/5 bilayer systemPhys. Rev. B 100, 245122 (2019)

[8] Li Chen, Sumanta Bandyopadhyay, Kun Yang, Alexander SeidelComposite fermions in Fock space: Operator algebra, recursion relations,and order parametersPhys. Rev. B 100, 045136 (2019)

15

[9] Sumanta Bandyopadhyay, Li Chen, Mostafa Tanhayi Ahari, Gerardo Ortiz,Zohar Nussinov, Alexander SeidelEntangled Pauli Principles: the DNA of Quantum Hall FluidsPhys. Rev. B 98, 161118(R) (2018)

[10] Hong-Chen Jiang, Zi-Xiang Li, Alexander Seidel, Dung-Hai LeeSymmetry protected topological Luttinger liquids and the phase transitionbetween themScience Bulletin 63, 753 (2018)

[11] Li Chen, Sumanta Bandyopadhyay, Alexander SeidelThe Jain-2/5 parent Hamiltonian: structure of zero modes, dominance patterns,and zero mode generatorsPhys. Rev. B 95, 195169 (2017)

[12] J. Wildeboer, A. Seidel, R. G. MelkoEntanglement Entropy and Topological Order in Resonating Valence-BondQuantum Spin LiquidsPhys. Rev. B 95, 100402 (2017)

[13] A. Weerasinghe, T. Mazaheri, A. SeidelBounds for low-energy spectral properties of center-of-mass conservingpositive two-body interactionsPhys. Rev. B 93, 155135 (2016)

[14] M. Pouranvari, K. Yang, A. SeidelEffect of Single Impurity on Free Fermion Entanglement EntropyPhys. Rev. B 91, 075115 (2015)

[15] T. Mazaheri, G. Ortiz, Z. Nussinov, A. SeidelZero modes, Bosonization and Topological Quantum Order:The Laughlin State in Second QuantizationPhys. Rev. B 91, 085115 (2015)

[16] L. Chen, A. SeidelAlgebraic approach to the study of zero modes of Haldane pseudopotentialsPhys. Rev. B 91, 085103 (2015)

16

[17] A. Weerasinghe, A. SeidelThin torus perturbative analysis of elementary excitations in the Gaffnian andHaldane-Rezayi quantum Hall statesPhys. Rev. B 90, 125146 (2014)

[18] L. Chen, T. Mazaheri, A. Seidel, X. Tang (alphabetic order)The impossibility of exactly flat non-trivial Chern bands in strictly local periodictight binding modelsJ. Phys. A: Math. Theor. 47 (2014) 152001

[19] Z. Zhou, J. Wildeboer, A. SeidelGround state uniqueness of the twelve site RVB spin-liquid parent Hamiltonian on thekagome latticePhys. Rev. B 89, 035123 (2014)

[20] G. Ortiz, Z. Nussinov, J. Dukelsky, A. SeidelRepulsive Interactions in Quantum Hall Systems as a Pairing ProblemPhys. Rev. B 88, 165303 (2013)

[21] Z. Zhou, Z. Nussinov, A. SeidelHeat equation approach to geometric changes of the torus Laughlin-statePhys. Rev. B 87, 115103 (2013)

[22] S. Chakrabarty, V. Dobrosavljevic, A. Seidel, Z. NussinovUniversality of modulation length (and time) exponentsPhys. Rev. E 86, 041132 (2012)

[23] J. Wildeboer, A. SeidelCorrelation functions in SU(2) invariant RVB spin liquids on non-bipartite latticesPhys. Rev. Lett. 109, 147208 (2012)

[24] J. Flavin, R. Thomale, A. SeidelGaffnian holonomy through the coherent state methodPhys. Rev. B 86, 125316 (2012)

[25] Z. Zhou, O. Vafek, A. SeidelGeometric phases of d-wave vortices in a model of lattice fermions

17

Phys. Rev. B 86, 020505(R) (2012)

[26] W. Ding, A. Seidel, K. YangEntanglement Entropy of Fermi Liquids via Multi-dimensional BosonizationPhys. Rev. X 2, 011012 (2012)

[27] J. Flavin, A. SeidelAbelian and non-Abelian statistics in the coherent state representationPhys. Rev. X 1, 021015 (2011)

[28] Z. Hao, Y. Wan, I. Rousochatzakis, J. Wildeboer, A. Seidel, F. Mila, O. TchernyshyovDestruction of valence-bond order in a S = 1/2 sawtooth chain with aDzyaloshinskii-Moriya termPhys.Rev. B 84, 094452 (2011)

[29] A. Seidel, K. YangGapless excitations in the Haldane-Rezayi state: The thin torus limitPhys. Rev. B 84, 085122 (2011)

[30] J. S. Wildeboer, A. SeidelLinear independence of nearest neighbor valence bond states on several 2D latticesPhys. Rev. B 83, 184430 (2011)

[31] Jian Wu, Julia S. Wildeboer, Fletcher Werner, Alexander Seidel, Z. Nussinov,S. A. SolinSpin glassiness and power law scaling in a quasi-triangular spin-1/2 compoundEurophys. Lett. 93, 67001, (2011)

[32] R. Thomale, A. SeidelA minimal model of quantized conductance in interacting ballistic quantum wiresPhys. Rev. B 83, 115330 (2011)

[33] A. SeidelS-duality constraints on 1D patterns associated with fractional quantum Hall statesPhys. Rev. Lett. 105, 026802 (2010)

[34] A. Seidel, K. YangMomentum resolved tunneling into the Pfaffian and anti-Pfaffian edge

18

Phys. Rev. B 80, 241309(R) (2009)

[35] A. SeidelLinear independence of the nearest neighbor valence bond states on the kagome latticeand construction of an SU(2)-invariant spin-1/2-Hamiltonian with a Sutherland-Rokhsar-Kivelson quantum liquid ground statePhys. Rev. B 80, 165131 (2009)

[36] A. SeidelPfaffian Statistics through adiabatic transport in the 1D coherent state representationPhys. Rev. Lett. 101, 196802 (2008)

[37] A. Seidel, K. YangHalperin (m,m′, n) bilayer quantum Hall states on thin cylindersPhys. Rev. Lett. 101, 036804 (2008)

[38] A. Seidel, D.-H. LeeDomain wall type defects as anyons in phase spacePhys. Rev. B 76, 155101 (2007)

[39] T. C. Ribeiro, A. Seidel, J. H. Han, D.-H. LeeThe Electronic States of Two Oppositely doped Mott Insulator BilayersEurophys. Lett. 76, 891, (2006)

[40] A. Seidel, D.-H. LeeAbelian and Non-abelian Hall Liquids and Charge Density Wave:Quantum Number Fractionalization in One and Two DimensionsPhys. Rev. Lett. 97, 056804 (2006)

[41] H. C. Fu, A. Seidel, J. Clarke, D.-H. LeeStabilizing Superconductivity in Nanowires by Coupling to Dissipative EnvironmentsPhys. Rev. Lett. 96, 157005 (2006)

[42] A. Seidel, Henry Fu, D.-H. Lee, J.M. Leinaas, J.E. MooreIncompressible Quantum Liquids and New Conservation LawsPhys. Rev. Lett. 95, 266405 (2005)

[43] A. Seidel, H.-H. Lin, D.-H. Lee

19

Phonons in Hubbard ladders studied within the framework of the one-looprenormalization groupPhys. Rev. B 71, 220501(R) (2005)

[44] A. Seidel, D.-H. LeeThe Luther-Emery liquid: Spin gap and anomalous flux periodPhys. Rev. B 71, 045113 (2005)

[45] A. Seidel, D.-H. LeeFlux period, spin gap, and pairing in the one-dimensional t-J-J’-modelPhys. Rev. Lett. 93, 046401 (2004)

[46] P. Lemmens, K.Y. Choi, G. Caimi, L. Degiorgi, N.N. Kovaleva, A. Seidel, F.C. ChouGiant phonon softening in the pseudo-gap phase of the quantum spin system TiOClPhys. Rev. B 70, 134429 (2004)

[47] A. Seidel, P. A. LeeLightly doped dimerized spin chain in the one-dimensional t-J-J’ modelPhys. Rev. B 69, 094419 (2004)

[48] A. Seidel, C. A. Marianetti, F. C. Chou, G. Ceder, P. A. LeeS=1/2 chains and spin-Peierls transition in TiOCl,Phys. Rev. B 67, 020405(R) (2003)

Graduate students supervised:

John FlavinJulia WildeboerZhenyu Zhou ) Amila WeerasingheLi ChenTahereh MazaheriSumanta BandyopadhyayMatheus Schossler (current)Joseph Cruise (current)

Undergraduate students supervised:

20

Bohan LuJackson Pitts

Committee Work:

(2018-present) Graduate Admissions Committee (chair)(2018-2020) Putnam Committee (member, Math Department)(2018-present) Organizer of the Condensed Matter/Materials/

Biophysics seminar series(2017-present) Physics Department Executive Committee (member)(2011 - present) Graduate Studies Committee (member)

(2017-2019) Faculty Library Committee (member, Washington University)(2017-2018) Graduate Admissions Committee (member)(2018) Nuclear Theory Search Committee (member)(2016-2018) Physics Coordinator of the Joint Post-Baccalaureate program

in Math, Physics, and EPS(2011-2017) Recruiting Committee (chair)(2010-2012) Undergraduate curriculum committee (member)(2011-2017) Chair’s Advisory Committee (member)(2009) Condensed matter theory search committee(2009-2013) Colloquium Committee (member)

Classes taught:

549 Solid State Physics I, Fall 2008, Washington University550 Solid State Physics II, Spring 2009, Washington University217 Introduction to Quantum Physics I, Fall 2009, Washington University318 Introduction to Quantum Physics II, Spring 2010, Washington University217 Introduction to Quantum Physics I, Fall 2010, Washington University318 Introduction to Quantum Physics II, Spring 2011, Washington University217 Introduction to Quantum Physics I, Fall 2011, Washington University318 Introduction to Quantum Physics II, Spring 2012, Washington University

21

217 Introduction to Quantum Physics I, Fall 2012, Washington University198 Physics II, Spring 2013, Washington University217 Introduction to Quantum Physics I, Fall 2013, Washington University198 Physics II, Spring 2014, Washington University117 General Physics I, Fall 2014, Washington University523 Quantum Mechanics I, Fall 2015, Washington University198 Physics II, Spring 2016, Washington University523 Quantum Mechanics I, Fall 2016, Washington University198 Physics II, Spring 2017, Washington University523 Quantum Mechanics I, Fall 2017, Washington University318 Introduction to Quantum Physics II, Spring 2018, Washington University501 Theoretical Physics, Fall 2018, Washington University502 Theoretical Physics, Spring 2019, Washington University501 Theoretical Physics, Fall 2019, Washington University502 Theoretical Physics, Spring 2020, Washington University501 Theoretical Physics, Fall 2020, Washington University502 Theoretical Physics, Spring 2021, Washington University

22