Journal Club for Condensed Matter Physics

Physical modeling of the heritability and maintenance of epigenetic modifications
Authors: Sarah H. Sandholtz, Quinn MacPherson , and Andrew J. Spakowitz
PNAS 117, 20423 (2020); DOI: 10.1073/pnas.1920499117

Recommended with a commentary by Jens-Uwe Sommer, Leibniz Institute of Polymer Research Dresden and TU Dresden
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DOI: 10.36471/JCCM_April_2022_03
https://doi.org/10.36471/JCCM_April_2022_03

Quantum anomalous Hall effect with a permanent magnet defines a quantum resistance standard
Authors: Yuma Okazaki, Takehiko Oe, Minoru Kawamura, Ryutaro Yoshimi, Shuji Nakamura, Shintaro Takada, Masataka Mogi, Kei S. Takahashi, Atsushi Tsukazaki, Masashi Kawasaki, Yoshinori Tokura, and Nobu-Hisa Kaneko
Nature Physics 18, 25-29 (2022); DOI: 10.1038/s41567-021-01424-8

Recommended with a commentary by Joe Checkelsky, Massachusetts Institute of Technology
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DOI: 10.36471/JCCM_March_2022_01
https://doi.org/10.36471/JCCM_March_2022_01

Explicit Analytical Solution for Random Close Paking in d = 2 and d = 3
Authors: Alessio Zaccone
Physical Review Letters 128, 028002 (2022); DOI: 10.1103/PhysRevLett.128.028002

Recommended with a commentary by Christos Likos, University of Vienna
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DOI: 10.36471/JCCM_March_2022_02
https://doi.org/10.36471/JCCM_March_2022_02

Discovery of charge-4e and charge-6e superconductivity in kagome superconductor CsV₃Sb₅
Authors: Jun Ge, Pinyuan Wang, Ying Xing, Qiangwei Yin, Hechang Lei, Ziqiang Wang, and Jian Wang
arXiv:2201.10352; DOI: 10.48550/arXiv.2201.10352

Recommended with a commentary by Chandra Varma, University of California, Berkeley – Visitor
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DOI: 10.36471/JCCM_March_2022_03
https://doi.org/10.36471/JCCM_March_2022_03

Non-orientable order and non-Abelian response in frustrated metamaterials
Authors: Xiaofei Guo, Marcelo Guzman, David Carpentier, Denis Bartolo, and Corentin Coulais
arXiv:2111.13933

Recommended with a commentary by Anton Souslov, University of Bath
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DOI: 10.36471/JCCM_February_2022_01
https://doi.org/10.36471/JCCM_February_2022_01

1. Dissipation-assisted operator evolution method for capturing hydrodynamic transport
Authors: Tibor Rakovszky, C. W. von Keyserlingk, and Frank Pollmann
Phys. Rev. B 105, 075131 (2022); DOI: 10.1103/PhysRevB.105.075131

2. Operator backflow and the classical simulation of quantum transport
Authors: C. W. von Keyserlingk, Frank Pollmann, and Tibor Rakovszky
arXiv:2111.09904

Recommended with a commentary by E. Miles Stoudenmire, Flatiron Institute
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DOI: 10.36471/JCCM_February_2022_02
https://doi.org/10.36471/JCCM_February_2022_02

Large N Theory of Critical Fermi Surfaces
Authors: I. Esterlis, H. Guo, A. A. Patel, and S. Sachdev
Phys. Rev. B 103, 235129 (2021); DOI: 10.1103/PhysRevB.103.235129

Recommended with a commentary by Steven A. Kivelson, Stanford University
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DOI: 10.36471/JCCM_February_2022_03
https://doi.org/10.36471/JCCM_February_2022_03

Quantum phase transition in a clean superconductor with repulsive dynamical interaction
Authors: Dimitri Pimenov and Andrey V. Chubukov
arXiv:2112.06273

Recommended with a commentary by Jörg Schmalian, Karlsruhe Institute of Technology
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DOI: 10.36471/JCCM_January_2022_01
https://doi.org/10.36471/JCCM_January_2022_01

1. Metal pad instabilities in liquid metal batteries
Authors: Oleg Zikanov
Phys. Rev. E 92, 063021 (2015); DOI: 10.1103/PhysRevE.92.063021

2. Fluid Mechanics of Liquid Metal Batteries
Authors: Douglas H. Kelley and Tom Weier
Appl. Mech. Rev. 70(2): 020801 (2018); DOI: 10.1115/1.4038699

Recommended with a commentary by Brian Skinner, Ohio State University
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DOI: 10.36471/JCCM_January_2022_02
https://doi.org/10.36471/JCCM_January_2022_02

Crazing Reveals an Entanglement Network in Glassy Ring Polymers
Authors: Jiuling Wang and Ting Ge
Macromolecules, 54, 16, 7500–7511, (2021); DOI: 10.1021/acs.macromol.1c01080

Recommended with a commentary by Jan Smrek, University of Vienna
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DOI: 10.36471/JCCM_January_2022_03
https://doi.org/10.36471/JCCM_January_2022_03

Quantum gas microscopy of Kardar-Parisi-Zhang superdiffusion
Authors: David Wei, Antonio Rubio-Abadal, Bingtian Ye, Francisco Machado, Jack Kemp, Kritsana Srakaew, Simon Hollerith, Jun Rui, Sarang Gopalakrishnan, Norman Y. Yao, Immanuel Bloch, and Johannes Zeiher
arXiv:2107.00038

Recommended with a commentary by Tin-Lun Ho, The Ohio State University
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DOI: 10.36471/JCCM_December_2021_01
https://doi.org/10.36471/JCCM_December_2021_01

1. Quantum-critical continuum in magic-angle twisted bilayer graphene
Authors: Alexandre Jaoui, Ipsita Das, Giorgio Di Battista, Jaime Díez-Mérida, Xiaobo Lu, Kenji Watanabe, Takashi Taniguchi, Hiroaki Ishizuka, Leonid Levitov, and Dmitri K. Efetov
arXiv:2108.07753

2. Incoherent transport across the strange metal regime of highly overdoped cuprates
Authors: J. Ayres, M. Berben, M. Čulo, Y.-T. Hsu, E. van Heumen, Y. Huang, J. Zaanen, T. Kondo, T. Takeuchi, J. R. Cooper, C. Putzke, S. Friedemann, A. Carrington, and N. E. Hussey
Nature, vol. 595, 661-666 (2021); DOI: 10.1038/s41586-021-03622-z
arXiv:2012.01208

3. Linear-in temperature resistivity from an isotropic Planckian scattering rate
Authors: Gaël Grissonnanche, Yawen Fang, Anaëlle Legros, Simon Verret, Francis Laliberté, Clément Collignon, Jianshi Zhou, David Graf, Paul A. Goddard, Louis Taillefer, and B. J. Ramshaw
Nature 595, 667-672 (2021); DOI: 10.1038/s41586-021-03697-8
arXiv:2011.13054

Recommended with a commentary by T. Senthil, Massachusetts Institute of Technology
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DOI: 10.36471/JCCM_December_2021_02
https://doi.org/10.36471/JCCM_December_2021_02

1. Isospin magnetism and spin-triplet superconductivity in Bernal bilayer graphene
Authors: Haoxin Zhou, Yu Saito, Liam Cohen, William Huynh, Caitlin L. Patterson, Fangyuan Yang, Takashi Taniguchi, Kenji Watanabe, and Andrea F. Young
arXiv:2110.11317

2. Superconductivity in rhombohedral trilayer graphene
Authors: Haoxin Zhou, Tian Xie, Takashi Taniguchi, Kenji Watanabe, and Andrea F. Young
Nature 598, 434–438 (2021); DOI: 10.1038/s41586-021-03926-0
arXiv:2106.07640

3. Cascade of isospin phase transitions in Bernal bilayer graphene at zero magnetic field
Authors: Sergio C. de la Barrera, Samuel Aronson, Zhiren Zheng, Kenji Watanabe, Takashi Taniguchi, Qiong Ma, Pablo Jarillo-Herrero, and Raymond Ashoori
arXiv:2110.13907

4. Quantum cascade of new correlated phases in trigonally warped bilayer graphene
Authors: Anna M. Seiler, Fabian R. Geisenhof, Felix Winterer, Kenji Watanabe, Takashi Taniguchi, Tianyi Xu, Fan Zhang, and R. Thomas Weitz
arXiv:2111.06413

Recommended with a commentary by Francisco Guinea, Imdea Nanoscience, Madrid and Donostia International Physics Center, San Sebastian
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DOI: 10.36471/JCCM_November_2021_01
https://doi.org/10.36471/JCCM_November_2021_01

1. Oscillations of the thermal conductivity in the spin-liquid state of α-RuCl₃
Authors: Peter Czajka, Tong Gao, Max Hirschberger, Paula Lampen-Kelley, Arnab Banerjee, Jiaqiang Yan, David G. Mandrus, Stephen E. Nagler, and N. P. Ong
Nature Physics 17, 915–919 (2021); DOI: 10.1038/s41567-021-01243-x

2. The planar thermal Hall conductivity in α-RuCl₃
Authors: Peter Czajka, Tong Gao, Max Hirschberger, Paula Lampen-Kelley, Arnab Banerjee, Nicholas Quirk, David G. Mandrus, Stephen E. Nagler, and N. P. Ong
arXiv:2111.0xxxx (to appear)

3. Robustness of the thermal Hall effect close to half-quantization in a field-induced spin liquid state
Authors: J.A.N. Bruin, R.R. Claus, Y. Matsumoto, N. Kurita, H. Tanaka, and H. Takagi
arXiv:2104.12184

4. Evidence of a Phonon Hall Effect in the Kitaev Spin Liquid Candidate α-RuCl₃
Authors: É. Lefrançois, G. Grissonnanche, J. Baglo, P. Lampen-Kelley, J. Yan, C. Balz, D. Mandrus, S. E. Nagler, S. Kim, Young-June Kim, N. Doiron-Leyraud, and L. Taillefer
arXiv:2111.05493

5. Sign Structure of Thermal Hall Conductivity and Topological Magnons for In-Plane Field Polarized Kitaev Magnets
Authors: Li Ern Chern , Emily Z. Zhang , and Yong Baek Kim
Physical Review Letters 126, 147201 (2021); DOI: 10.1103/PhysRevLett.126.147201

6. Pseudoscalar U(1) spin liquids in α-RuCl₃
Authors: Inti Sodemann Villadiego
arXiv:2106.05290

Recommended with a commentary by Patrick A. Lee, MIT
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DOI: 10.36471/JCCM_November_2021_02
https://doi.org/10.36471/JCCM_November_2021_02

1. Active topological glass
Authors: Jan Smrek, Iurii Chubak, Christos N. Likos, and Kurt Kremer
Nature Communications, 11: 26, 2020; DOI: 10.1038/s41467-019-13696-z

2. Emergence of active topological glass through directed chain dynamics and nonequilibrium phase separation
Authors: Iurii Chubak, Christos N. Likos, Kurt Kremer, and Jan Smrek
Physical Review Research, 2: 043249, 2020; DOI: 10.1103/PhysRevResearch.2.043249

Recommended with a commentary by Dimitris Vlassopoulos, University of Crete and Institute of Electronic Structure & Laser, FORTH
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DOI: 10.36471/JCCM_November_2021_03
https://doi.org/10.36471/JCCM_November_2021_03

1. Observation of Time-Crystalline Eigenstate Order on a Quantum Processor
Authors: Google Quantum AI and collaborators
arXiv:2107.13571

2. Observation of a many-body-localized discrete time crystal with a programmable spin-based quantum simulator
Authors: J. Randall, C. E. Bradley, F. V. van der Gronden, A. Galicia, M. H. Abobeih, M. Markham, D. J. Twitchen, F. Machado, N. Y. Yao, and T. H. Taminiau
arXiv:2107.00736

3. Phase Structure of Driven Quantum Systems
Authors: V. Khemani, A. Lazarides, R. Moessner, and S. L. Sondhi
Phys. Rev. Lett., 116, 250401 (2016); DOI: 10.1103/PhysRevLett.116.250401
arXiv:1508.03344

Recommended with a commentary by Daniel Arovas, University of California, San Diego
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DOI: 10.36471/JCCM_October_2021_01
https://doi.org/10.36471/JCCM_October_2021_01

Quantized Nonlinear Conductance in Ballistic Metals
Authors: C. L. Kane
arXiv:2108.05870

Recommended with a commentary by Carlo Beenakker, Instituut-Lorentz, Leiden University
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DOI: 10.36471/JCCM_October_2021_02
https://doi.org/10.36471/JCCM_October_2021_02

Odd Diffusivity of Chiral Random Motion
Authors: Cory Hargus, Jeffrey M. Epstein, and Kranthi K. Mandadapu
Phys. Rev. Lett. 127, 178001 (2021); DOI: 10.1103/PhysRevLett.127.178001
arXiv:2103.09958

Recommended with a commentary by Alexander Y. Grosberg, New York University
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DOI: 10.36471/JCCM_October_2021_03
https://doi.org/10.36471/JCCM_October_2021_03

1. Millisecond coherence in a superconducting qubit
Authors: Aaron Somoroff, Quentin Ficheux, Raymond A. Mencia, Haonan Xiong, Roman V. Kuzmin, and Vladimir E. Manucharyan
arXiv:2103.08578

2. New material platform for superconducting transmon qubits with coherence times exceeding 0.3 milliseconds
Authors: Alexander P. M. Place, Lila V. H. Rodgers, Pranav Mundada, Basil M. Smitham, Mattias Fitzpatrick, Zhaoqi Leng, Anjali Premkumar, Jacob Bryon, Andrei Vrajitoarea, Sara Sussman, Guangming Cheng, Trisha Madhavan, Harshvardhan K. Babla, Xuan Hoang Le, Youqi Gang, Berthold Jäck, András Gyenis, Nan Yao, Robert J. Cava, Nathalie P. de Leon, and Andrew A. Houck
Nature Communications 12, 1779 (2021); DOI: 10.1038/s41467-021-22030-5
arXiv:2003.00024

3. Protecting a bosonic qubit with autonomous quantum error correction
Authors: Jeffrey M. Gertler, Brian Baker, Juliang Li, Shruti Shirol, Jens Koch, and Chen Wang
Nature 590, 243-248 (2021); DOI: 10.1038/s41586-021-03257-0
arXiv:2004.09322

Recommended with a commentary by Steven M. Girvin, Yale University
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DOI: 10.36471/JCCM_September_2021_01
https://doi.org/10.36471/JCCM_September_2021_01

Gut bacterial aggregates as living gels
Authors: Brandon H. Schlomann, and Raghuveer Parthasarathy
eLife 2021;10:e71105; DOI: 10.7554/eLife.71105

Recommended with a commentary by Srividya Iyer-Biswas, Purdue University and Santa Fe Institute
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DOI: 10.36471/JCCM_September_2021_02
https://doi.org/10.36471/JCCM_September_2021_02