Papers using TeNPy

This page collects papers using (and citing) the TeNPy library, both as an inspiration what can be done, as well as to keep track of the usage, such that we can see how useful our work is to the community. It keeps us motivated!

To include your own work, you can either fill out this template on github, or you can directly add your citation in this Zotero online library (and notify us about it or just wait).

Entries in the following list are sorted by year-author.

1. Johannes Hauschild, Eyal Leviatan, Jens H. Bardarson, Ehud Altman, Michael P. Zaletel, and Frank Pollmann. Finding purifications with minimal entanglement. Physical Review B, 98(23):235163, December 2018. arXiv:1711.01288, doi:10.1103/PhysRevB.98.235163.

2. Johannes Hauschild and Frank Pollmann. Efficient numerical simulations with Tensor Networks: Tensor Network Python (TeNPy). SciPost Physics Lecture Notes, pages 5, October 2018. arXiv:1805.00055, doi:10.21468/SciPostPhysLectNotes.5.

3. Maximilian Schulz, Scott Richard Taylor, Christopher Andrew Hooley, and Antonello Scardicchio. Energy transport in a disordered spin chain with broken U(1) symmetry: Diffusion, subdiffusion, and many-body localization. Physical Review B, 98(18):180201, November 2018. arXiv:1805.01036, doi:10.1103/PhysRevB.98.180201.

4. Yasuhiro Tada. Non-thermodynamic nature of the orbital angular momentum in neutral fermionic superfluids. Physical Review B, 97(21):214523, June 2018. arXiv:1805.11226, doi:10.1103/PhysRevB.97.214523.

5. Annabelle Bohrdt, Fabian Grusdt, and Michael Knap. Dynamical formation of a magnetic polaron in a two-dimensional quantum antiferromagnet. arXiv:1907.08214 [cond-mat, physics:quant-ph], July 2019. arXiv:1907.08214.

6. Fabian Grusdt, Annabelle Bohrdt, and Eugene Demler. Microscopic spinon-chargon theory of magnetic polarons in the t-J model. Physical Review B, 99(22):224422, June 2019. arXiv:1901.01113, doi:10.1103/PhysRevB.99.224422.

7. Johannes Michael Hauschild. Quantum Many-Body Systems Far Out of Equilibrium — Simulations with Tensor Networks. PhD thesis, Technische Universität München, München, 2019.

8. Michael Rader and Andreas M. Läuchli. Floating Phases in One-Dimensional Rydberg Ising Chains. arXiv:1908.02068 [cond-mat, physics:quant-ph], August 2019. arXiv:1908.02068.

9. Leon Schoonderwoerd, Frank Pollmann, and Gunnar Möller. Interaction-driven plateau transition between integer and fractional Chern Insulators. arXiv:1908.00988 [cond-mat], August 2019. arXiv:1908.00988.

10. Bartholomew Andrews, Madhav Mohan, and Titus Neupert. Abelian topological order of \nu=2/5 and 3/7 fractional quantum Hall states in lattice models. arXiv:2007.08870 [cond-mat], August 2020. arXiv:2007.08870.

11. Bartholomew Andrews and Alexey Soluyanov. Fractional quantum Hall states for moir\'e superstructures in the Hofstadter regime. Physical Review B, 101(23):235312, June 2020. arXiv:2004.06602, doi:10.1103/PhysRevB.101.235312.

12. Mari Carmen Banuls, Michal P. Heller, Karl Jansen, Johannes Knaute, and Viktor Svensson. From spin chains to real-time thermal field theory using tensor networks. Physical Review Research, 2(3):033301, August 2020. arXiv:1912.08836, doi:10.1103/PhysRevResearch.2.033301.

13. Stefan Birnkammer, Annabelle Bohrdt, Fabian Grusdt, and Michael Knap. Characterizing Topological Excitations of a Long-Range Heisenberg Model with Trapped Ions. arXiv:2012.09185 [cond-mat, physics:quant-ph], December 2020. arXiv:2012.09185.

14. A. Bohrdt, Y. Wang, J. Koepsell, M. Kánasz-Nagy, E. Demler, and F. Grusdt. Dominant fifth-order correlations in doped quantum anti-ferromagnets. arXiv:2007.07249 [cond-mat, physics:quant-ph], July 2020. arXiv:2007.07249.

15. Umberto Borla, Ruben Verresen, Fabian Grusdt, and Sergej Moroz. Confined phases of one-dimensional spinless fermions coupled to Z_2 gauge theory. Physical Review Letters, 124(12):120503, March 2020. arXiv:1909.07399, doi:10.1103/PhysRevLett.124.120503.

16. Umberto Borla, Ruben Verresen, Jeet Shah, and Sergej Moroz. Gauging the Kitaev chain. arXiv:2010.00607 [cond-mat, physics:hep-lat, physics:hep-th, physics:quant-ph], October 2020. arXiv:2010.00607.

17. M. Michael Denner, Mark H. Fischer, and Titus Neupert. Efficient Learning of a One-dimensional Density Functional Theory. Physical Review Research, 2(3):033388, September 2020. arXiv:2005.03014, doi:10.1103/PhysRevResearch.2.033388.

18. Elmer V. H. Doggen, Igor V. Gornyi, Alexander D. Mirlin, and Dmitry G. Polyakov. Slow many-body delocalization beyond one dimension. arXiv:2002.07635 [cond-mat], July 2020. arXiv:2002.07635.

19. Xiao-Yu Dong and D. N. Sheng. Spin-1 Kitaev-Heisenberg model on a two-dimensional honeycomb lattice. Physical Review B, 102(12):121102, September 2020. arXiv:1911.12854, doi:10.1103/PhysRevB.102.121102.

20. Axel Gagge and Jonas Larson. Superradiance, charge density waves and lattice gauge theory in a generalized Rabi-Hubbard chain. arXiv:2006.13588 [cond-mat, physics:quant-ph], June 2020. arXiv:2006.13588.

21. Zi-Yong Ge, Rui-Zhen Huang, Zi Yang Meng, and Heng Fan. Approximating Lattice Gauge Theories on Superconducting Circuits: Quantum Phase Transition and Quench Dynamics. arXiv:2009.13350 [cond-mat, physics:quant-ph], September 2020. arXiv:2009.13350.

22. Yixuan Huang, Xiao-Yu Dong, D. N. Sheng, and C. S. Ting. Quantum phase diagram and chiral spin liquid in the extended spin-\$\frac\1\\2\\$ honeycomb XY model. arXiv:1912.11156 [cond-mat], August 2020. arXiv:1912.11156.

23. Yixuan Huang, D. N. Sheng, and C. S. Ting. Coupled dimer and bond-order-wave order in the quarter-filled one-dimensional Kondo lattice model. arXiv:2009.13089 [cond-mat], September 2020. arXiv:2009.13089.

24. C. Hubig, A. Bohrdt, M. Knap, F. Grusdt, and J. I. Cirac. Evaluation of time-dependent correlators after a local quench in iPEPS: hole motion in the t-J model. SciPost Physics, 8(2):021, February 2020. arXiv:1911.01159, doi:10.21468/SciPostPhys.8.2.021.

25. Geoffrey Ji, Muqing Xu, Lev Haldar Kendrick, Christie S. Chiu, Justus C. Brüggenjürgen, Daniel Greif, Annabelle Bohrdt, Fabian Grusdt, Eugene Demler, Martin Lebrat, and Markus Greiner. Dynamical interplay between a single hole and a Hubbard antiferromagnet. arXiv:2006.06672 [cond-mat, physics:quant-ph], June 2020. arXiv:2006.06672.

26. Philipp W. Klein, Adolfo G. Grushin, and Karyn Le Hur. Stochastic Chern number from interactions and light response. arXiv:2002.01742 [cond-mat, physics:hep-th, physics:math-ph, physics:quant-ph], August 2020. arXiv:2002.01742.

27. Benedikt Kloss and Yevgeny Bar Lev. Spin transport in disordered long-range interacting spin chain. Physical Review B, 102(6):060201, August 2020. arXiv:1911.07857, doi:10.1103/PhysRevB.102.060201.

28. Joannis Koepsell, Dominik Bourgund, Pimonpan Sompet, Sarah Hirthe, Annabelle Bohrdt, Yao Wang, Fabian Grusdt, Eugene Demler, Guillaume Salomon, Christian Gross, and Immanuel Bloch. Microscopic evolution of doped Mott insulators from polaronic metal to Fermi liquid. arXiv:2009.04440 [cond-mat, physics:quant-ph], September 2020. arXiv:2009.04440.

29. Korbinian Kottmann, Patrick Huembeli, Maciej Lewenstein, and Antonio Acin. Unsupervised phase discovery with deep anomaly detection. arXiv:2003.09905 [cond-mat, physics:quant-ph], March 2020. arXiv:2003.09905.

30. Yoshihito Kuno and Yasuhiro Hatsugai. Interaction Induced Topological Charge Pump. arXiv:2007.11215 [cond-mat], July 2020. arXiv:2007.11215.

31. Dongkeun Lee and Wonmin Son. Bell-type correlation at quantum phase transitions in spin-1 chain. arXiv:2010.09999 [quant-ph], October 2020. arXiv:2010.09999.

32. Alessio Lerose, Michael Sonner, and Dmitry A. Abanin. Influence matrix approach to many-body Floquet dynamics. arXiv:2009.10105 [cond-mat, physics:quant-ph], September 2020. arXiv:2009.10105.

33. Iman Mahyaeh, Jurriaan Wouters, and Dirk Schuricht. Phase diagram of the Z_3-Fock parafermion chain with pair hopping. arXiv:2003.07812 [cond-mat], September 2020. arXiv:2003.07812.

34. Ivan Morera, Grigori E. Astrakharchik, Artur Polls, and Bruno Juliá-Díaz. Universal dimerized quantum droplets in a one-dimensional lattice. arXiv:2007.01786 [cond-mat, physics:quant-ph], July 2020. arXiv:2007.01786.

35. Ivan Morera, Irénée Frérot, Artur Polls, and Bruno Juliá-Díaz. Entanglement entropy in low-energy field theories at finite chemical potential. Physical Review Research, 2(3):033016, July 2020. arXiv:1907.01204, doi:10.1103/PhysRevResearch.2.033016.

36. Johannes Motruk and Ilyoun Na. Detecting fractional Chern insulators in optical lattices through quantized displacement. arXiv:2005.09860 [cond-mat, physics:quant-ph], May 2020. arXiv:2005.09860.

37. Nelson Darkwah Oppong, Giulio Pasqualetti, Oscar Bettermann, Philip Zechmann, Michael Knap, Immanuel Bloch, and Simon Fölling. Probing transport and slow relaxation in the mass-imbalanced Fermi-Hubbard model. arXiv:2011.12411 [cond-mat, physics:quant-ph], November 2020. arXiv:2011.12411.

38. Thomas Quella. Symmetry protected topological phases beyond groups: The q-deformed bilinear-biquadratic spin chain. arXiv:2011.12679 [cond-mat, physics:math-ph], November 2020. arXiv:2011.12679.

39. C. Repellin, J. Léonard, and N. Goldman. Hall drift of fractional Chern insulators in few-boson systems. arXiv:2005.09689 [cond-mat, physics:quant-ph], July 2020. arXiv:2005.09689.

40. Ananda Roy, Johannes Hauschild, and Frank Pollmann. Quantum phases of a one-dimensional Majorana-Bose-Hubbard model. Physical Review B, 101(7):075419, February 2020. arXiv:1911.08120, doi:10.1103/PhysRevB.101.075419.

41. Ananda Roy, Frank Pollmann, and Hubert Saleur. Entanglement Hamiltonian of the 1+1-dimensional free, compactified boson conformal field theory. Journal of Statistical Mechanics: Theory and Experiment, 2020(8):083104, August 2020. arXiv:2004.14370, doi:10.1088/1742-5468/aba498.

42. Ananda Roy, Dirk Schuricht, Johannes Hauschild, Frank Pollmann, and Hubert Saleur. The quantum sine-Gordon model with quantum circuits. arXiv:2007.06874 [cond-mat, physics:hep-lat, physics:nlin, physics:quant-ph], July 2020. arXiv:2007.06874.

43. Tomohiro Soejima, Daniel E. Parker, Nick Bultinck, Johannes Hauschild, and Michael P. Zaletel. Efficient simulation of moire materials using the density matrix renormalization group. arXiv:2009.02354 [cond-mat], September 2020. arXiv:2009.02354.

44. John Sous, Benedikt Kloss, Dante M. Kennes, David R. Reichman, and Andrew J. Millis. Phonon-induced disorder in dynamics of optically pumped metals from non-linear electron-phonon coupling. arXiv:2009.00619 [cond-mat], September 2020. arXiv:2009.00619.

45. Aaron Szasz, Johannes Motruk, Michael P. Zaletel, and Joel E. Moore. Chiral spin liquid phase of the triangular lattice Hubbard model: a density matrix renormalization group study. Physical Review X, 10(2):021042, May 2020. arXiv:1808.00463, doi:10.1103/PhysRevX.10.021042.

46. Yasuhiro Tada. Quantum criticality of magnetic catalysis in two-dimensional correlated Dirac fermions. Physical Review Research, 2(3):033363, September 2020. arXiv:2005.01990, doi:10.1103/PhysRevResearch.2.033363.

47. Qicheng Tang and W. Zhu. Measurement-induced phase transition: A case study in the non-integrable model by density-matrix renormalization group calculations. Physical Review Research, 2(1):013022, January 2020. arXiv:1908.11253, doi:10.1103/PhysRevResearch.2.013022.

48. Ruben Verresen, Mikhail D. Lukin, and Ashvin Vishwanath. Prediction of Toric Code Topological Order from Rydberg Blockade. arXiv:2011.12310 [cond-mat, physics:physics, physics:quant-ph], November 2020. arXiv:2011.12310.

49. L. Villa, J. Despres, S. J. Thomson, and L. Sanchez-Palencia. Local quench spectroscopy of many-body quantum systems. arXiv:2007.08381 [cond-mat], July 2020. arXiv:2007.08381.

50. Botao Wang, Xiao-Yu Dong, F. Nur Ünal, and André Eckardt. Robust and Ultrafast State Preparation by Ramping Artificial Gauge Potentials. arXiv:2009.00560 [cond-mat, physics:quant-ph], September 2020. arXiv:2009.00560.

51. Zhaoyou Wang and Emily J. Davis. Calculating Renyi Entropies with Neural Autoregressive Quantum States. arXiv:2003.01358 [cond-mat, physics:quant-ph], March 2020. arXiv:2003.01358.

52. Jurriaan Wouters, Hosho Katsura, and Dirk Schuricht. Constructive approach for frustration-free models using Witten's conjugation. arXiv:2005.12825 [cond-mat, physics:math-ph], May 2020. arXiv:2005.12825.

53. Elisabeth Wybo, Michael Knap, and Frank Pollmann. Entanglement dynamics of a many-body localized system coupled to a bath. Physical Review B, 102(6):064304, August 2020. arXiv:2004.13072, doi:10.1103/PhysRevB.102.064304.

54. Elisabeth Wybo, Frank Pollmann, S. L. Sondhi, and Yizhi You. Visualizing Quasiparticles from Quantum Entanglement for general 1D phases. arXiv:2010.15137 [cond-mat, physics:hep-th, physics:quant-ph], October 2020. arXiv:2010.15137.

55. Ya-Hui Zhang and Zheng Zhu. Symmetric pseudogap metal in a generalized t-J model. arXiv:2008.11204 [cond-mat], August 2020. arXiv:2008.11204.

56. Joaquin F. Rodriguez-Nieva, Alexander Schuckert, Dries Sels, Michael Knap, and Eugene Demler. Transverse instability and universal decay of spin spiral order in the Heisenberg model. arXiv:2011.07058 [cond-mat], November 2020. arXiv:2011.07058.

57. Faisal Alsallom, Loïc Herviou, Oleg V. Yazyev, and Marta Brzezińska. Fate of the non-Hermitian skin effect in many-body fermionic systems. arXiv:2110.13164 [cond-mat], October 2021. arXiv:2110.13164.

58. Bartholomew Andrews, Titus Neupert, and Gunnar Möller. Stability, phase transitions, and numerical breakdown of fractional Chern insulators in higher Chern bands of the Hofstadter model. Physical Review B, 104(12):125107, September 2021. arXiv:2107.06047, doi:10.1103/PhysRevB.104.125107.

59. Julian Boesl, Rohit Dilip, Frank Pollmann, and Michael Knap. Characterizing fractional topological phases of lattice bosons near the first Mott lobe. arXiv:2111.11446 [cond-mat, physics:quant-ph], November 2021. arXiv:2111.11446.

60. A. Bohrdt, E. Demler, and F. Grusdt. Rotational Resonances and Regge Trajectories in Lightly Doped Antiferromagnets. arXiv:2101.09280 [cond-mat, physics:hep-th, physics:quant-ph], March 2021. arXiv:2101.09280.

61. Annabelle Bohrdt, Lukas Homeier, Immanuel Bloch, Eugene Demler, and Fabian Grusdt. Strong pairing in mixed dimensional bilayer antiferromagnetic Mott insulators. arXiv:2108.04118 [cond-mat], August 2021. arXiv:2108.04118.

62. Umberto Borla, Bhilahari Jeevanesan, Frank Pollmann, and Sergej Moroz. Quantum phases of two-dimensional Z_2 gauge theory coupled to single-component fermion matter. arXiv:2012.08543 [cond-mat, physics:hep-lat, physics:hep-th], February 2021. arXiv:2012.08543.

63. Giovanni Cataldi, Ashkan Abedi, Giuseppe Magnifico, Simone Notarnicola, Nicola Dalla Pozza, Vittorio Giovannetti, and Simone Montangero. Hilbert curve vs Hilbert space: exploiting fractal 2D covering to increase tensor network efficiency. Quantum, 5:556, September 2021. arXiv:2105.02239, doi:10.22331/q-2021-09-29-556.

64. Pieter W. Claeys, Austen Lamacraft, and Jonah Herzog-Arbeitman. Absence of superdiffusion in certain random spin models. arXiv:2110.06951 [cond-mat, physics:quant-ph], October 2021. arXiv:2110.06951.

65. A. Coissard, D. Wander, H. Vignaud, A. G. Grushin, C. Repellin, K. Watanabe, T. Taniguchi, F. Gay, C. Winkelmann, H. Courtois, H. Sellier, and B. Sacépé. Imaging tunable quantum Hall broken-symmetry orders in charge-neutral graphene. arXiv:2110.02811 [cond-mat], October 2021. arXiv:2110.02811.

66. Tessa Cookmeyer, Johannes Motruk, and Joel E. Moore. Four-Spin Terms and the Origin of the Chiral Spin Liquid in Mott Insulators on the Triangular Lattice. Physical Review Letters, 127(8):087201, August 2021. arXiv:2103.07438, doi:10.1103/PhysRevLett.127.087201.

67. Jonathan D'Emidio, Alexander A. Eberharter, and Andreas M. Läuchli. Diagnosing weakly first-order phase transitions by coupling to order parameters. arXiv:2106.15462 [cond-mat], June 2021. arXiv:2106.15462.

68. Trithep Devakul and Liang Fu. Quantum anomalous Hall effect from inverted charge transfer gap. arXiv:2109.13909 [cond-mat], September 2021. arXiv:2109.13909.

69. Elmer V. H. Doggen, Yuval Gefen, Igor V. Gornyi, Alexander D. Mirlin, and Dmitry G. Polyakov. Generalized quantum measurements with matrix product states: Entanglement phase transition and clusterization. arXiv:2104.10451 [cond-mat, physics:quant-ph], July 2021. arXiv:2104.10451.

70. Elmer V. H. Doggen, Igor V. Gornyi, and Dmitry G. Polyakov. Stark many-body localization: Evidence for Hilbert-space shattering. Physical Review B, 103(10):L100202, March 2021. arXiv:2012.13722, doi:10.1103/PhysRevB.103.L100202.

71. Dion M. F. Hartmann, Jurriaan J. Wouters, Dirk Schuricht, Rembert A. Duine, and Akashdeep Kamra. Intersublattice entanglement entropy as an extensive property in antiferromagnets. Physical Review B, 104(6):064436, August 2021. arXiv:2103.04809, doi:10.1103/PhysRevB.104.064436.

72. Yuchi He, Dante M. Kennes, and Volker Meden. The conductance of correlated many-fermion systems from charge fluctuations. arXiv:2111.01120 [cond-mat], November 2021. arXiv:2111.01120.

73. Yixuan Huang, W. Zhu, Shou-Shu Gong, Hong-Chen Jiang, and D. N. Sheng. Coexistence of non-Abelian chiral spin liquid and magnetic order in a spin-1 antiferromagnet. arXiv:2108.06676 [cond-mat], August 2021. arXiv:2108.06676.

74. Mikel Iraola, Niclas Heinsdorf, Apoorv Tiwari, Dominik Lessnich, Thomas Mertz, Francesco Ferrari, Mark H. Fischer, Stephen M. Winter, Frank Pollmann, Titus Neupert, Roser Valentí, and Maia G. Vergniory. Towards a Topological Quantum Chemistry description of correlated systems: the case of the Hubbard diamond chain. arXiv:2101.04135 [cond-mat], January 2021. arXiv:2101.04135.

75. Paul Niklas Jepsen, Wen Wei Ho, Jesse Amato-Grill, Ivana Dimitrova, Eugene Demler, and Wolfgang Ketterle. Transverse spin dynamics in the anisotropic Heisenberg model realized with ultracold atoms. arXiv:2103.07866 [cond-mat, physics:physics, physics:quant-ph], March 2021. arXiv:2103.07866.

76. Hui-Ke Jin, Rong-Yang Sun, Yi Zhou, and Hong-Hao Tu. Matrix Product States for Hartree-Fock-Bogoliubov Wave Functions. arXiv:2111.09101 [cond-mat, physics:nucl-th, physics:physics, physics:quant-ph], November 2021. arXiv:2111.09101.

77. Nick G. Jones, Julian Bibo, Bernhard Jobst, Frank Pollmann, Adam Smith, and Ruben Verresen. Skeleton of Matrix-Product-State-Solvable Models Connecting Topological Phases of Matter. Physical Review Research, 3(3):033265, September 2021. arXiv:2105.12143, doi:10.1103/PhysRevResearch.3.033265.

78. Yaroslav Kharkov, Oles Shtanko, Alireza Seif, Przemyslaw Bienias, Mathias Van Regemortel, Mohammad Hafezi, and Alexey V. Gorshkov. Discovering hydrodynamic equations of many-body quantum systems. arXiv:2111.02385 [cond-mat, physics:nlin, physics:quant-ph], November 2021. arXiv:2111.02385.

79. Dominik Kiese, Yuchi He, Ciarán Hickey, Angel Rubio, and Dante M. Kennes. TMDs as a platform for spin liquid physics: A strong coupling study of twisted bilayer WSe\$_2\$. arXiv:2110.10179 [cond-mat], October 2021. arXiv:2110.10179.

80. Thomas Kohlert, Sebastian Scherg, Pablo Sala, Frank Pollmann, Bharath Hebbe Madhusudhana, Immanuel Bloch, and Monika Aidelsburger. Experimental realization of fragmented models in tilted Fermi-Hubbard chains. arXiv:2106.15586 [cond-mat, physics:quant-ph], June 2021. arXiv:2106.15586.

81. Korbinian Kottmann, Andreas Haller, Antonio Acín, Grigory E. Astrakharchik, and Maciej Lewenstein. Supersolid-Superfluid phase separation in the extended Bose-Hubbard model. arXiv:2106.05893 [cond-mat, physics:quant-ph], June 2021. arXiv:2106.05893.

82. Rebecca Kraus, Titas Chanda, Jakub Zakrzewski, and Giovanna Morigi. Quantum phases of dipolar bosons in one-dimensional optical lattices. arXiv:2112.10386 [cond-mat, physics:quant-ph], December 2021. arXiv:2112.10386.

83. Yoshihito Kuno and Yasuhiro Hatsugai. Plateau transitions of spin pump and bulk-edge correspondence. Physical Review B, 104(4):045113, July 2021. arXiv:2102.09325, doi:10.1103/PhysRevB.104.045113.

84. Yoshihito Kuno and Yasuhiro Hatsugai. Topological pump and bulk-edge-correspondence in an extended Bose-Hubbard model. Physical Review B, 104(12):125146, September 2021. arXiv:2107.09498, doi:10.1103/PhysRevB.104.125146.

85. Dongkeun Lee and Wonmin Son. Detection of quantum criticality in spin-1 chain through multipartite non-locality. arXiv:2105.12391 [quant-ph], May 2021. arXiv:2105.12391.

86. Alessio Lerose, Michael Sonner, and Dmitry A. Abanin. Scaling of temporal entanglement in proximity to integrability. Physical Review B, 104(3):035137, July 2021. arXiv:2104.07607, doi:10.1103/PhysRevB.104.035137.

87. Wei-Han Li, Arya Dhar, Xiaolong Deng, and Luis Santos. Cluster dynamics in two-dimensional lattice gases with inter-site interactions. Physical Review A, 103(4):043331, April 2021. arXiv:2012.02663, doi:10.1103/PhysRevA.103.043331.

88. Ivan Morera, Annabelle Bohrdt, Wen Wei Ho, and Eugene Demler. Attraction from frustration in ladder systems. arXiv:2106.09600 [cond-mat], June 2021. arXiv:2106.09600.

89. Takahiro Orito, Yoshihito Kuno, and Ikuo Ichinose. Non-thermalized Dynamics of Flat-Band Many-Body Localization. Physical Review B, 103(6):L060301, February 2021. arXiv:2012.13659, doi:10.1103/PhysRevB.103.L060301.

90. Daniel Parker, Patrick Ledwith, Eslam Khalaf, Tomohiro Soejima, Johannes Hauschild, Yonglong Xie, Andrew Pierce, Michael P. Zaletel, Amir Yacoby, and Ashvin Vishwanath. Field-tuned and zero-field fractional Chern insulators in magic angle graphene. arXiv:2112.13837 [cond-mat], December 2021. arXiv:2112.13837.

91. Daniel E. Parker, Tomohiro Soejima, Johannes Hauschild, Michael P. Zaletel, and Nick Bultinck. Strain-induced quantum phase transitions in magic angle graphene. Physical Review Letters, 127(2):027601, July 2021. arXiv:2012.09885, doi:10.1103/PhysRevLett.127.027601.

92. R. Peña, V. M. Bastidas, F. Torres, W. J. Munro, and G. Romero. Fractional resonances and prethermal states in Floquet systems. arXiv:2111.06949 [cond-mat, physics:quant-ph], November 2021. arXiv:2111.06949.

93. Niall F. Robertson, Jacopo Surace, and Luca Tagliacozzo. On quenches to the critical point of the three states Potts model – Matrix Product State simulations and CFT. arXiv:2110.07078 [cond-mat, physics:hep-th, physics:quant-ph], October 2021. arXiv:2110.07078.

94. Pascal Scholl, Michael Schuler, Hannah J. Williams, Alexander A. Eberharter, Daniel Barredo, Kai-Niklas Schymik, Vincent Lienhard, Louis-Paul Henry, Thomas C. Lang, Thierry Lahaye, Andreas M. Läuchli, and Antoine Browaeys. Programmable quantum simulation of 2D antiferromagnets with hundreds of Rydberg atoms. Nature, 595(7866):233–238, July 2021. arXiv:2012.12268, doi:10.1038/s41586-021-03585-1.

95. Giulia Semeghini, Harry Levine, Alexander Keesling, Sepehr Ebadi, Tout T. Wang, Dolev Bluvstein, Ruben Verresen, Hannes Pichler, Marcin Kalinowski, Rhine Samajdar, Ahmed Omran, Subir Sachdev, Ashvin Vishwanath, Markus Greiner, Vladan Vuletic, and Mikhail D. Lukin. Probing Topological Spin Liquids on a Programmable Quantum Simulator. arXiv:2104.04119 [cond-mat, physics:physics, physics:quant-ph], April 2021. arXiv:2104.04119.

96. Pimonpan Sompet, Sarah Hirthe, Dominik Bourgund, Thomas Chalopin, Julian Bibo, Joannis Koepsell, Petar Bojović, Ruben Verresen, Frank Pollmann, Guillaume Salomon, Christian Gross, Timon A. Hilker, and Immanuel Bloch. Realising the Symmetry-Protected Haldane Phase in Fermi-Hubbard Ladders. arXiv:2103.10421 [cond-mat, physics:quant-ph], September 2021. arXiv:2103.10421.

97. Michael Sonner, Alessio Lerose, and Dmitry A. Abanin. Characterizing many-body localization via exact disorder-averaged quantum noise. arXiv:2012.00777 [cond-mat, physics:quant-ph], July 2021. arXiv:2012.00777.

98. Michael Sonner, Alessio Lerose, and Dmitry A. Abanin. Influence functional of many-body systems: temporal entanglement and matrix-product state representation. Annals of Physics, 431:168552, August 2021. arXiv:2103.13741, doi:10.1016/j.aop.2021.168552.

99. Yasuhiro Tada. Quantum critical orbital diamagnetism in correlated Dirac system. arXiv:2106.04071 [cond-mat, physics:hep-ph], June 2021. arXiv:2106.04071.

100. Nathanan Tantivasadakarn, Ryan Thorngren, Ashvin Vishwanath, and Ruben Verresen. Long-range entanglement from measuring symmetry-protected topological phases. arXiv:2112.01519 [cond-mat, physics:quant-ph], December 2021. arXiv:2112.01519.

101. Mikheil Tsitsishvili, Titas Chanda, Matteo Votto, Pierre Fromholz, Marcello Dalmonte, and Alexander Nersesyan. Phase diagram of Rydberg-dressed atoms on two-leg square ladders: Coupling supersymmetric conformal field theories on the lattice. arXiv:2112.10421 [cond-mat, physics:hep-th, physics:quant-ph], December 2021. arXiv:2112.10421.

102. Ruben Verresen, Julian Bibo, and Frank Pollmann. Quotient symmetry protected topological phenomena. arXiv:2102.08967 [cond-mat, physics:quant-ph], February 2021. arXiv:2102.08967.

103. L. Villa, S. J. Thomson, and L. Sanchez-Palencia. Finding the phase diagram of strongly-correlated disordered bosons using quantum quenches. Physical Review A, 104(2):023323, August 2021. arXiv:2105.06396, doi:10.1103/PhysRevA.104.023323.

104. L. Villa, S. J. Thomson, and L. Sanchez-Palencia. Quench Spectroscopy of a Disordered Quantum System. Physical Review A, 104(2):L021301, August 2021. arXiv:2105.05774, doi:10.1103/PhysRevA.104.L021301.

105. Joseph Vovrosh, Hongzheng Zhao, Johannes Knolle, and Alvise Bastianello. Confinement induced impurity states in spin chains. arXiv:2108.03976 [cond-mat], August 2021. arXiv:2108.03976.

106. Botao Wang, Xiao-Yu Dong, and André Eckardt. Measurable signatures of bosonic fractional Chern insulator states and their fractional excitations in a quantum-gas microscope. arXiv:2111.01110 [cond-mat], November 2021. arXiv:2111.01110.

107. Jurriaan Wouters, Fabian Hassler, Hosho Katsura, and Dirk Schuricht. Phase diagram of an extended parafermion chain. arXiv:2106.15823 [cond-mat], June 2021. arXiv:2106.15823.

108. Elisabeth Wybo, Michael Knap, and Frank Pollmann. Dynamics of Negativity of a Wannier-Stark Many-Body Localized System Coupled to a Bath. physica status solidi (b), pages pssb.202100161, October 2021. arXiv:2110.07384, doi:10.1002/pssb.202100161.

109. Yizhi You, Julian Bibo, Taylor L. Hughes, and Frank Pollmann. Fractonic critical point proximate to a higher-order topological insulator: How does UV blend with IR? arXiv:2101.01724 [cond-mat, physics:hep-th], January 2021. arXiv:2101.01724.

110. Ya-Hui Zhang, D. N. Sheng, and Ashvin Vishwanath. SU(4) chiral spin liquid, exciton supersolid and electric detection in moir\'e bilayers. arXiv:2103.09825 [cond-mat], October 2021. arXiv:2103.09825.

111. Antonio Štrkalj, Elmer V. H. Doggen, Igor V. Gornyi, and Oded Zilberberg. Many-body localization in the interpolating Aubry-Andr\'e-Fibonacci model. Physical Review Research, 3(3):033257, September 2021. arXiv:2106.13841, doi:10.1103/PhysRevResearch.3.033257.

112. Sergi Julià-Farré, Daniel González-Cuadra, Alexander Patscheider, Manfred J. Mark, Francesca Ferlaino, Maciej Lewenstein, Luca Barbiero, and Alexandre Dauphin. Revealing the topological nature of the bond order wave in a strongly correlated quantum system. arXiv:2112.08785 [cond-mat], December 2021. arXiv:2112.08785.

113. Sajant Anand, Johannes Hauschild, Yuxuan Zhang, Andrew C. Potter, and Michael P. Zaletel. Holographic quantum simulation of entanglement renormalization circuits. March 2022. arXiv:2203.00886, doi:10.48550/arXiv.2203.00886.

114. Devendra Singh Bhakuni, Amrita Ghosh, and Eytan Grosfeld. Interaction-driven phase transition in one dimensional mirror-symmetry protected topological insulator. July 2022. arXiv:2202.07436, doi:10.48550/arXiv.2202.07436.

115. Stefan Birnkammer, Alvise Bastianello, and Michael Knap. Prethermalization in confined spin chains. February 2022. arXiv:2202.12908, doi:10.48550/arXiv.2202.12908.

116. Wolfram Brenig. Spinless fermions in a Z_2 gauge theory on the triangular ladder. Physical Review B, 105(24):245105, June 2022. arXiv:2202.04668, doi:10.1103/PhysRevB.105.245105.

117. Finn Lasse Buessen, Hyun-Yong Lee, Tarun Grover, and Yong Baek Kim. Pre-thermalization via self-driving and external driving of extensive subsystems. February 2022. arXiv:2202.05285, doi:10.48550/arXiv.2202.05285.

118. Lorenzo Cardarelli, Sergi Julià-Farré, Maciej Lewenstein, Alexandre Dauphin, and Markus Müller. Accessing the topological Mott insulator in cold atom quantum simulators with realistic Rydberg dressing. March 2022. arXiv:2203.14818, doi:10.48550/arXiv.2203.14818.

119. Michael J. Cervia, Pooja Siwach, Amol V. Patwardhan, A. B. Balantekin, S. N. Coppersmith, and Calvin W. Johnson. Collective neutrino oscillations with tensor networks using a time-dependent variational principle. Physical Review D, 105(12):123025, June 2022. arXiv:2202.01865, doi:10.1103/PhysRevD.105.123025.

120. Cheng Chen, Guillaume Bornet, Marcus Bintz, Gabriel Emperauger, Lucas Leclerc, Vincent S. Liu, Pascal Scholl, Daniel Barredo, Johannes Hauschild, Shubhayu Chatterjee, Michael Schuler, Andreas M. Laeuchli, Michael P. Zaletel, Thierry Lahaye, Norman Y. Yao, and Antoine Browaeys. Continuous Symmetry Breaking in a Two-dimensional Rydberg Array. July 2022. arXiv:2207.12930, doi:10.48550/arXiv.2207.12930.

121. Pieter W. Claeys and Austen Lamacraft. Emergent quantum state designs and biunitarity in dual-unitary circuit dynamics. Quantum, 6:738, June 2022. arXiv:2202.12306, doi:10.22331/q-2022-06-15-738.

122. Tessa Cookmeyer and Joel E. Moore. Dynamics of fractionalized mean-field theories: consequences for Kitaev materials. June 2022. arXiv:2206.04788, doi:10.48550/arXiv.2206.04788.

123. Elmer V. H. Doggen, Igor V. Gornyi, and Dmitry G. Polyakov. Many-body localization in a tilted potential in two dimensions. Physical Review B, 105(13):134204, April 2022. arXiv:2202.04948, doi:10.1103/PhysRevB.105.134204.

124. Pierre Fromholz, Mikheil Tsitsishvili, Matteo Votto, Marcello Dalmonte, Alexander Nersesyan, and Titas Chanda. Phase diagram of Rydberg-dressed atoms on two-leg triangular ladders. July 2022. arXiv:2207.00385, doi:10.48550/arXiv.2207.00385.

125. Juan P. Garrahan and Frank Pollmann. Topological phases in the dynamics of the simple exclusion process. March 2022. arXiv:2203.08200, doi:10.48550/arXiv.2203.08200.

126. Samuel J. Garratt, Zack Weinstein, and Ehud Altman. Measurements conspire nonlocally to restructure critical quantum states. July 2022. arXiv:2207.09476, doi:10.48550/arXiv.2207.09476.

127. Yuchi He, Kang Yang, Jonas B. Hauck, Emil J. Bergholtz, and Dante M. Kennes. Superconductivity of repulsive spinless fermions with sublattice potentials. August 2022. arXiv:2208.02830, doi:10.48550/arXiv.2208.02830.

128. Yuichiro Hidaka, Shunsuke C. Furuya, Atsushi Ueda, and Yasuhiro Tada. Gapless symmetry-protected topological phase of quantum antiferromagnets on anisotropic triangular strip. May 2022. arXiv:2205.15525, doi:10.48550/arXiv.2205.15525.

129. Sarah Hirthe, Thomas Chalopin, Dominik Bourgund, Petar Bojović, Annabelle Bohrdt, Eugene Demler, Fabian Grusdt, Immanuel Bloch, and Timon A. Hilker. Magnetically mediated hole pairing in fermionic ladders of ultracold atoms. March 2022. arXiv:2203.10027, doi:10.48550/arXiv.2203.10027.

130. Lukas Homeier, Annabelle Bohrdt, Simon Linsel, Eugene Demler, Jad C. Halimeh, and Fabian Grusdt. Quantum simulation of Z_2 lattice gauge theories with dynamical matter from two-body interactions in 2+1D. May 2022. arXiv:2205.08541, doi:10.48550/arXiv.2205.08541.

131. Bernhard Jobst, Adam Smith, and Frank Pollmann. Finite-depth scaling of infinite quantum circuits for quantum critical points. March 2022. arXiv:2203.11975, doi:10.48550/arXiv.2203.11975.

132. Wilhelm Kadow, Laurens Vanderstraeten, and Michael Knap. Hole Spectral Function of a Chiral Spin Liquid in the Triangular Lattice Hubbard Model. February 2022. arXiv:2202.03458, doi:10.48550/arXiv.2202.03458.

133. Matjaž Kebrič, Umberto Borla, Ulrich Schollwöck, Sergej Moroz, Luca Barbiero, and Fabian Grusdt. Confinement Induced Frustration in a One-Dimensional Z_2 Lattice Gauge Theory. June 2022. arXiv:2206.13487, doi:10.48550/arXiv.2206.13487.

134. Friederike Metz and Marin Bukov. Self-Correcting Quantum Many-Body Control using Reinforcement Learning with Tensor Networks. January 2022. arXiv:2201.11790, doi:10.48550/arXiv.2201.11790.

135. A. Nietner, A. Kshetrimayum, J. Eisert, and B. Lake. A route towards engineering many-body localization in real materials. July 2022. arXiv:2207.10696, doi:10.48550/arXiv.2207.10696.

136. Takuhiro Ogino, Ryui Kaneko, Satoshi Morita, and Shunsuke Furukawa. Ground-state phase diagram of a spin-1/2 frustrated XXZ ladder. June 2022. arXiv:2206.13048, doi:10.48550/arXiv.2206.13048.

137. Bartosz Rzepkowski, Michał Kupczyński, Paweł Potasz, and Arkadiusz Wójs. DMRG and Monte Carlo studies of CrI_3 magnetic phases and the phase transition. arXiv:2201.02586 [cond-mat], January 2022. arXiv:2201.02586.

138. Alexander Schuckert, Annabelle Bohrdt, Eleanor Crane, and Michael Knap. Probing finite-temperature observables in quantum simulators with short-time dynamics. June 2022. arXiv:2206.01756, doi:10.48550/arXiv.2206.01756.

139. Guo-Xian Su, Hui Sun, Ana Hudomal, Jean-Yves Desaules, Zhao-Yu Zhou, Bing Yang, Jad C. Halimeh, Zhen-Sheng Yuan, Zlatko Papić, and Jian-Wei Pan. Observation of unconventional many-body scarring in a quantum simulator. arXiv:2201.00821 [cond-mat, physics:quant-ph], January 2022. arXiv:2201.00821.

140. Hao-Yu Sun, Zi-Yong Ge, and Heng Fan. Universal Behavior of Multipartite Entanglement in Crossing the Quantum Critical Point. February 2022. arXiv:2202.07892, doi:10.48550/arXiv.2202.07892.

141. Aaron Szasz, Chong Wang, and Yin-Chen He. Phase diagram of a bilinear-biquadratic spin-1 model on the triangular lattice from density matrix renormalization group simulations. June 2022. arXiv:2206.04087, doi:10.48550/arXiv.2206.04087.

142. Pascal M. Vecsei, Jose L. Lado, and Christian Flindt. Lee-Yang theory of the two-dimensional quantum Ising model. Physical Review B, 106(5):054402, August 2022. arXiv:2204.08223, doi:10.1103/PhysRevB.106.054402.

143. Ruben Verresen, Nathanan Tantivasadakarn, and Ashvin Vishwanath. Efficiently preparing Schr\"odinger's cat, fractons and non-Abelian topological order in quantum devices. arXiv:2112.03061 [cond-mat, physics:physics, physics:quant-ph], January 2022. arXiv:2112.03061.

144. Ruben Verresen and Ashvin Vishwanath. Unifying Kitaev magnets, kagome dimer models and ruby Rydberg spin liquids. May 2022. arXiv:2205.15302, doi:10.48550/arXiv.2205.15302.

145. Anne-Sophie Walter, Zijie Zhu, Marius Gächter, Joaquín Minguzzi, Stephan Roschinski, Kilian Sandholzer, Konrad Viebahn, and Tilman Esslinger. Breakdown of quantisation in a Hubbard-Thouless pump. April 2022. arXiv:2204.06561, doi:10.48550/arXiv.2204.06561.

146. Sebastian Weber, Rukmani Bai, Nastasia Makki, Johannes Mögerle, Thierry Lahaye, Antoine Browaeys, Maria Daghofer, Nicolai Lang, and Hans Peter Büchler. Experimentally accessible scheme for a fractional Chern insulator in Rydberg atoms. February 2022. arXiv:2202.00699, doi:10.48550/arXiv.2202.00699.

147. Elisabeth Wybo, Michael Knap, and Alvise Bastianello. Quantum sine-Gordon dynamics in coupled spin chains. March 2022. arXiv:2203.09530, doi:10.48550/arXiv.2203.09530.

148. Philip Zechmann, Alvise Bastianello, and Michael Knap. Tunable transport in the mass-imbalanced Fermi-Hubbard model. May 2022. arXiv:2205.12970, doi:10.48550/arXiv.2205.12970.

149. Ya-Hui Zhang. Doping a Mott insulator with excitons in moir\'e bilayer: fractional superfluid, neutral Fermi surface and Mott transition. May 2022. arXiv:2204.10937, doi:10.48550/arXiv.2204.10937.

150. Yang Zhao and Xiao-Feng Shi. The fractional Chern insulator with Rydberg-dressed neutral atoms. June 2022. arXiv:2206.04213, doi:10.48550/arXiv.2206.04213.

151. T.-W. Zhou, G. Cappellini, D. Tusi, L. Franchi, J. Parravicini, C. Repellin, S. Greschner, M. Inguscio, T. Giamarchi, M. Filippone, J. Catani, and L. Fallani. Observation of Universal Hall Response in Strongly Interacting Fermions. May 2022. arXiv:2205.13567, doi:10.48550/arXiv.2205.13567.

152. Antonio Štrkalj, Elmer V. H. Doggen, and Claudio Castelnovo. Coexistence of localization and transport in many-body two-dimensional Aubry-Andr\'e models. April 2022. arXiv:2204.05198, doi:10.48550/arXiv.2204.05198.

153. Javier Argüello-Luengo, Alejandro González-Tudela, and Daniel González-Cuadra. Tuning long-range fermion-mediated interactions in cold-atom quantum simulators. March 2022. arXiv:2203.17022, doi:10.48550/arXiv.2203.17022.