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. 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.

  14. 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.

  15. 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.

  16. 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.

  17. 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.

  18. 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.

  19. 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.

  20. 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.

  21. 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.

  22. 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.

  23. 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.

  24. 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.

  25. 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.

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

  27. 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.

  28. Iman Mahyaeh, Jurriaan Wouters, and Dirk Schuricht. Phase diagram of the \$\mathbb\\vphantom \Z\vphantom \\_3\$-Fock parafermion chain with pair hopping. arXiv:2003.07812 [cond-mat], September 2020. arXiv:2003.07812.

  29. 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.

  30. 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.

  31. 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.

  32. 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.

  33. 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.

  34. 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.

  35. 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.

  36. 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.

  37. 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.

  38. 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.

  39. 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.

  40. 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.

  41. 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.

  42. 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.

  43. 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.

  44. 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.

  45. 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.

  46. 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.