Physical Review Research - December 2022

Physical Review Research View Email Online   Volume 4, Issue 4 October - December 2022   View Issue   Advertisement Researchers discuss an approach to determine the diffusion length of excitons in in organic semiconductors without any temporal measurements live Drew Riley, Swansea University sits down with the Physical Review Journal Club January 25 at 9:00AM E.T. to discuss the Physical Review Applied paper "Quasi-Steady-State Measurement of Exciton Diffusion Lengths in Organic Semiconductors" Registration is free and a video recording will be provided to all registrants »     Advertisement Dr. Stephen Nagler Named Lead Editor of Physical Review B APS is pleased to announce that Dr. Stephen Nagler of Oak Ridge Laboratory has been selected to succeed Dr. Laurens Molenkamp as Lead Editor of Physical Review B. The transition to Dr. Nagler will be effective as of February 1, 2023. Learn more »     Advertisement PRX Energy extends APC waiver until 2024 APS is pleased to announce that we have extended our waiver period of all article publication charges (APC) on manuscripts submitted prior to January 1, 2024 and subsequently accepted and published by PRX Energy. We encourage you to take advantage of this promotion and submit your research »     Not an APS member? Join today to start connecting with a community of more than 50,000 physicists.   HIGHLIGHTED ARTICLES Editors' Suggestion Persistent current oscillations in a double-ring quantum gas T. Bland, I. V. Yatsuta, M. Edwards, Y. O. Nikolaieva, A. O. Oliinyk, A. I. Yakimenko, and N. P. Proukakis Phys. Rev. Research 4, 043171 (2022) – Published 8 December 2022 By introducing a repulsive barrier at the interface between two density-coupled rings of ultracold atoms, a persistent current can oscillate between the rings. The phenomenon persists indefinitely in the limit of zero temperature, but it decays at finite temperature and can even be suppressed completely in the limit of large damping.     Editors' Suggestion Hidden-nucleons neural-network quantum states for the nuclear many-body problem Alessandro Lovato, Corey Adams, Giuseppe Carleo, and Noemi Rocco Phys. Rev. Research 4, 043178 (2022) – Published 12 December 2022 Understanding how protons and neutrons self-organize to form atomic nuclei requires solving the nuclear many-body Schrödinger equation. This work addresses this nontrivial task through a neural network quantum states ansatz that involves additional "hidden" degrees of freedom to improve the accuracy of the solution systemically. Light and medium-mass nuclei's energy and spatial density distributions are in excellent agreement with those obtained utilizing exact-diagonalization and diffusion Monte Carlo approaches.     Editors' Suggestion Real-space Mott-Anderson electron localization with long-range interactions Antoine Marie, Derk P. Kooi, Juri Grossi, Michael Seidl, Ziad H. Musslimani, Klaas J. H. Giesbertz, and Paola Gori-Giorgi Phys. Rev. Research 4, 043192 (2022) – Published 15 December 2022 Electrons that are delocalized in space because of quantum effects can become localized by an external disordered potential (Anderson localization) or by their mutual Coulomb repulsion (Mott/Wigner localization). A simple model addresses what happens when both effects are present, how to quantify the degree of localization, and whether approximate methods can capture the relevant physics.     LETTERS Letter Large inverted band gap in strained three-layer InAs/GaInSb quantum wells C. Avogadri, S. Gebert, S. S. Krishtopenko, I. Castillo, C. Consejo, S. Ruffenach, C. Roblin, C. Bray, Y. Krupko, S. Juillaguet, S. Contreras, A. Wolf, F. Hartmann, S. Höfling, G. Boissier, J.-B. Rodriguez, S. Nanot, E. Tournié, F. Teppe, and B. Jouault Phys. Rev. Research 4, L042042 (2022) – Published 5 December 2022 InAs/GaInSb quantum wells with three strained layers are theoretically two-dimensional quantum spin Hall insulators. Magnetotransport measurements reveal that these structures have indeed inverted band gaps as large as 45 meV and, moreover, have an edge conduction of possible topological origin.     Letter Experimental determination of a multiqubit ground state via a cluster mean-field algorithm Ze Zhan, Ying Fei, Chongxin Run, Zhiwen Zong, Liang Xiang, Wenyan Jin, Zhilong Jia, Peng Duan, Guoping Guo, Jianlan Wu, and Yi Yin Phys. Rev. Research 4, L042043 (2022) – Published 8 December 2022 A quantum eigensolver method has been designed under a multilayer cluster mean-field algorithm, which can be used to determine the eigenstates of a large-scale quantum system in a series of much-smaller-scale quantum computations.     Letter Loss of material trainability through an unusual transition Himangsu Bhaumik and Daniel Hexner Phys. Rev. Research 4, L042044 (2022) – Published 12 December 2022 Disordered elastic networks learn complex responses, with an extensive number of outputs. Above a threshold complexity, training fails through material degradation, which is expressed through the vanishing of a gap in the density of states.     Letter Global minima optimization via mirror-rotation transformation Yi-Rong Liu, Yan Jiang, Shuai Jiang, Chun-Yu Wang, and Teng Huang Phys. Rev. Research 4, L042045 (2022) – Published 16 December 2022 Global minima searching for atomic or molecular clusters is studied by the mirror-rotation transformation. It shows that the proposed method can greatly improve the efficiency of unbiased global optimization.     Letter Motility and self-organization of gliding Chlamydomonas populations Sebastian Till, Florian Ebmeier, Alexandros A. Fragkopoulos, Marco G. Mazza, and Oliver Bäumchen Phys. Rev. Research 4, L042046 (2022) – Published 19 December 2022 A population of gliding Chlamydomonas reinhardtii cells exhibit cluster formation. Cell motility alone in simulations is unable to reproduce the phenomenon, which can be resolved with the inclusion of mechanosensing.     Letter Phonon renormalization effects accompanying the 6 K anomaly in the quantum spin liquid candidate κ−(BEDT-TTF)2Cu2(CN)3 Masato Matsuura, Takahiko Sasaki, Makoto Naka, Jens Müller, Oliver Stockert, Andrea Piovano, Naoki Yoneyama, and Michael Lang Phys. Rev. Research 4, L042047 (2022) – Published 20 December 2022 Inelastic neutron scattering measurements have revealed an abrupt change in the phonon damping at the 6 K anomaly in the quantum spin liquid candidate κ-(BEDT-TTF)2Cu2(CN)3. This is interpreted as a phase transition to the valence bond solid state on the basis of an effective model describing the spin-charge coupling in the dimer-Mott system.     Letter Reaction plane alignment with linearly polarized photon in heavy-ion collisions Xin Wu, Xinbai Li, Zebo Tang, Pengfei Wang, and Wangmei Zha Phys. Rev. Research 4, L042048 (2022) – Published 23 December 2022 The information on initial geometry is an indispensable prerequisite for the collective observables to probe the properties of quark-gluon plasma created in relativistic heavy-ion collisions, which cannot be directly determined by experiment. A novel idea of mapping the initial geometry with linearly polarized photons is demonstrated, directly linking the initial geometry to the final collective observables.     Letter Anomalous Fano factor as a signature of Bogoliubov Fermi surfaces Sayan Banerjee, Satoshi Ikegaya, and Andreas P. Schnyder Phys. Rev. Research 4, L042049 (2022) – Published 23 December 2022 Bogoliubov Fermi surfaces consist of an extensive number of Bogoliubov quasiparticles and can be created, for example, in semiconductor/superconductor hybrid devices. Noise spectroscopy is proposed to detect the presence of Bogoliubov Fermi surfaces in experiments.     Letter Robustness assessment of complex networks using the idle network Marcus Engsig, Alejandro Tejedor, and Yamir Moreno Phys. Rev. Research 4, L042050 (2022) – Published 26 December 2022 By utilizing the information encoded in the connectivity of the nodes affected by an attack (idle network), the assessment of network robustness is systematically enhanced. Moreover, the idle network information provides generalizability to train models to estimate network robustness, even for previously unseen attacks.     Letter Maximal dispersion of adaptive random walks Gabriele Di Bona, Leonardo Di Gaetano, Vito Latora, and Francesco Coghi Phys. Rev. Research 4, L042051 (2022) – Published 30 December 2022 The challenge of maximizing dispersion of a dynamical process over a globally unknown network is overcome by introducing an adaptive random walk. This adaptive random walk, through a large-deviation-theory approach, updates its transition rule on the local information collected while exploring the network.     ARTICLES Existence of finite and anisotropic heavy ion parallel compressibility pinch in the gyrokinetic turbulence Shaokang Xu, S. Maeyama, and T.-H. Watanabe Phys. Rev. Research 4, 043156 (2022) – Published 1 December 2022   Catapulting towards massive and large spatial quantum superposition Run Zhou, Ryan J. Marshman, Sougato Bose, and Anupam Mazumdar Phys. Rev. Research 4, 043157 (2022) – Published 2 December 2022   Quantum refrigerator driven by nonclassical light Hui-Jing Cao (曹会静), Fu Li (李福), and Sheng-Wen Li (李圣文) Phys. Rev. Research 4, 043158 (2022) – Published 2 December 2022   Disorder stabilized breached-pair phase in an s-wave superconductor Madhuparna Karmakar, Subhojit Roy, Shantanu Mukherjee, and Rajesh Narayanan Phys. Rev. Research 4, 043159 (2022) – Published 5 December 2022   Epidemic processes on self-propelled particles: Continuum and agent-based modeling Jorge P. Rodríguez, Matteo Paoluzzi, Demian Levis, and Michele Starnini Phys. Rev. Research 4, 043160 (2022) – Published 5 December 2022   Variational dynamics as a ground-state problem on a quantum computer Stefano Barison, Filippo Vicentini, Ignacio Cirac, and Giuseppe Carleo Phys. Rev. Research 4, 043161 (2022) – Published 5 December 2022   Wave manipulation via delay-engineered periodic potentials Alessandro Alberucci, Chandroth P. Jisha, Monika Monika, Ulf Peschel, and Stefan Nolte Phys. Rev. Research 4, 043162 (2022) – Published 5 December 2022   Unveiling the charge distribution of a GaAs-based nanoelectronic device: A large experimental dataset approach Eleni Chatzikyriakou, Junliang Wang, Lucas Mazzella, Antonio Lacerda-Santos, Maria Cecilia da Silva Figueira, Alex Trellakis, Stefan Birner, Thomas Grange, Christopher Bäuerle, and Xavier Waintal Phys. Rev. Research 4, 043163 (2022) – Published 5 December 2022   Entanglement spectrum and entropy in Floquet topological matter Longwen Zhou Phys. Rev. Research 4, 043164 (2022) – Published 5 December 2022   Intrinsic regularization effect in Bayesian nonlinear regression scaled by observed data Satoru Tokuda, Kenji Nagata, and Masato Okada Phys. Rev. Research 4, 043165 (2022) – Published 6 December 2022   Bayesian estimation of correlation functions Ángel Gutiérrez-Rubio, Juan S. Rojas-Arias, Jun Yoneda, Seigo Tarucha, Daniel Loss, and Peter Stano Phys. Rev. Research 4, 043166 (2022) – Published 6 December 2022   Two dominant timescales of cytoskeletal crosslinking in the viscoelastic response of the cytoplasm Ora T. Cohen and Adam G. Hendricks Phys. Rev. Research 4, 043167 (2022) – Published 6 December 2022   Ultrastrong coupling between electron tunneling and mechanical motion Florian Vigneau, Juliette Monsel, Jorge Tabanera, Kushagra Aggarwal, Léa Bresque, Federico Fedele, Federico Cerisola, G. A. D. Briggs, Janet Anders, Juan M. R. Parrondo, Alexia Auffèves, and Natalia Ares Phys. Rev. Research 4, 043168 (2022) – Published 7 December 2022   Uniform optical gain as a non-Hermitian control knob A. Hashemi, K. Busch, S. K. Ozdemir, and R. El-Ganainy Phys. Rev. Research 4, 043169 (2022) – Published 7 December 2022   Experimental generation of coherent-state superpositions with a quantum memory Viviane Cotte, Hector Simon, Benjamin Pointard, and Rosa Tualle-Brouri Phys. Rev. Research 4, 043170 (2022) – Published 8 December 2022   Editors' Suggestion Persistent current oscillations in a double-ring quantum gas T. Bland, I. V. Yatsuta, M. Edwards, Y. O. Nikolaieva, A. O. Oliinyk, A. I. Yakimenko, and N. P. Proukakis Phys. Rev. Research 4, 043171 (2022) – Published 8 December 2022 By introducing a repulsive barrier at the interface between two density-coupled rings of ultracold atoms, a persistent current can oscillate between the rings. The phenomenon persists indefinitely in the limit of zero temperature, but it decays at finite temperature and can even be suppressed completely in the limit of large damping.     Mapping renormalized coupled cluster methods to quantum computers through a compact unitary representation of nonunitary operators Bo Peng and Karol Kowalski Phys. Rev. Research 4, 043172 (2022) – Published 8 December 2022   Enhanced potency of aggregation inhibitors mediated by liquid condensates Thomas C. T. Michaels, L. Mahadevan, and Christoph A. Weber Phys. Rev. Research 4, 043173 (2022) – Published 8 December 2022   Estimating heating times in periodically driven quantum many-body systems via avoided crossing spectroscopy Artem Rakcheev and Andreas M. Läuchli Phys. Rev. Research 4, 043174 (2022) – Published 8 December 2022   Micromagnets dramatically enhance effects of viscous hydrodynamic flow in a two-dimensional electron fluid Jack N. Engdahl, Aydın Cem Keser, and Oleg P. Sushkov Phys. Rev. Research 4, 043175 (2022) – Published 9 December 2022   Phase reduction of strongly coupled limit-cycle oscillators Wataru Kurebayashi, Takuto Yamamoto, Sho Shirasaka, and Hiroya Nakao Phys. Rev. Research 4, 043176 (2022) – Published 9 December 2022   Entanglement-based observables for quantum impurities Lidia Stocker, Stefan H. Sack, Michael S. Ferguson, and Oded Zilberberg Phys. Rev. Research 4, 043177 (2022) – Published 9 December 2022   Editors' Suggestion Hidden-nucleons neural-network quantum states for the nuclear many-body problem Alessandro Lovato, Corey Adams, Giuseppe Carleo, and Noemi Rocco Phys. Rev. Research 4, 043178 (2022) – Published 12 December 2022 Understanding how protons and neutrons self-organize to form atomic nuclei requires solving the nuclear many-body Schrödinger equation. This work addresses this nontrivial task through a neural network quantum states ansatz that involves additional "hidden" degrees of freedom to improve the accuracy of the solution systemically. Light and medium-mass nuclei's energy and spatial density distributions are in excellent agreement with those obtained utilizing exact-diagonalization and diffusion Monte Carlo approaches.     Macroscopic hyperpolarization enhanced with quantum optimal control Alastair Marshall, Thomas Reisser, Phila Rembold, Christoph Müller, Jochen Scheuer, Martin Gierse, Tim Eichhorn, Jakob M. Steiner, Patrick Hautle, Tommaso Calarco, Fedor Jelezko, Martin B. Plenio, Simone Montangero, Ilai Schwartz, Matthias M. Müller, and Philipp Neumann Phys. Rev. Research 4, 043179 (2022) – Published 12 December 2022   Magnon-mediated spin entanglement in the strong-coupling regime Vasilios Karanikolas, Takashi Kuroda, and Jun-ichi Inoue Phys. Rev. Research 4, 043180 (2022) – Published 12 December 2022   Prestressed elasticity of amorphous solids Shang Zhang, Ethan Stanifer, Vishwas V. Vasisht, Leyou Zhang, Emanuela Del Gado, and Xiaoming Mao Phys. Rev. Research 4, 043181 (2022) – Published 12 December 2022   Mixed bubbles in a one-dimensional Bose-Bose mixture P. Stürmer, M. Nilsson Tengstrand, and S. M. Reimann Phys. Rev. Research 4, 043182 (2022) – Published 12 December 2022   Two-dimensional quadratic double Weyl semimetal Xinlei Zhao, Fengjie Ma, Peng-Jie Guo, and Zhong-Yi Lu Phys. Rev. Research 4, 043183 (2022) – Published 12 December 2022   Negative differential thermal resistance of fluids induced by heat baths Rongxiang Luo, Juncheng Guo, Jun Zhang, and Hanxin Yang Phys. Rev. Research 4, 043184 (2022) – Published 12 December 2022   Spatial search by continuous-time quantum walks on renormalized Internet networks Joonas Malmi, Matteo A. C. Rossi, Guillermo García-Pérez, and Sabrina Maniscalco Phys. Rev. Research 4, 043185 (2022) – Published 13 December 2022   Stochastic thermodynamics of fractional Brownian motion S. Mohsen J. Khadem, Rainer Klages, and Sabine H. L. Klapp Phys. Rev. Research 4, 043186 (2022) – Published 13 December 2022   Disentangling polycationic fullerenes produced from glassy carbon with multireflection time-of-flight mass spectrometry Paul Fischer and Lutz Schweikhard Phys. Rev. Research 4, 043187 (2022) – Published 14 December 2022   Helimagnets by disorder: Its role on the high-temperature magnetic spiral in the YBaCuFeO5 perovskite Arnau Romaguera, Xiaodong Zhang, Oscar Fabelo, Francois Fauth, Javier Blasco, and José Luis García-Muñoz Phys. Rev. Research 4, 043188 (2022) – Published 14 December 2022   Towards string order melting of spin-1 particle chains in superconducting transmons using optimal control Paul Kairys and Travis S. Humble Phys. Rev. Research 4, 043189 (2022) – Published 14 December 2022   Control of collective human behavior: Social dynamics beyond modeling Ilias Panagiotopoulos, Jens Starke, and Wolfram Just Phys. Rev. Research 4, 043190 (2022) – Published 15 December 2022   Delta-T noise for fractional quantum Hall states at different filling factor Giacomo Rebora, Jérôme Rech, Dario Ferraro, Thibaut Jonckheere, Thierry Martin, and Maura Sassetti Phys. Rev. Research 4, 043191 (2022) – Published 15 December 2022   Editors' Suggestion Real-space Mott-Anderson electron localization with long-range interactions Antoine Marie, Derk P. Kooi, Juri Grossi, Michael Seidl, Ziad H. Musslimani, Klaas J. H. Giesbertz, and Paola Gori-Giorgi Phys. Rev. Research 4, 043192 (2022) – Published 15 December 2022 Electrons that are delocalized in space because of quantum effects can become localized by an external disordered potential (Anderson localization) or by their mutual Coulomb repulsion (Mott/Wigner localization). A simple model addresses what happens when both effects are present, how to quantify the degree of localization, and whether approximate methods can capture the relevant physics.     Solving hadron structures using the basis light-front quantization approach on quantum computers Wenyang Qian, Robert Basili, Soham Pal, Glenn Luecke, and James P. Vary Phys. Rev. Research 4, 043193 (2022) – Published 15 December 2022   Theory of linewidth narrowing in Fano lasers Yi Yu, Aref Rasoulzadeh Zali, and Jesper Mørk Phys. Rev. Research 4, 043194 (2022) – Published 16 December 2022   Functional observability and subspace reconstruction in nonlinear systems Arthur N. Montanari, Leandro Freitas, Daniele Proverbio, and Jorge Gonçalves Phys. Rev. Research 4, 043195 (2022) – Published 16 December 2022   Level statistics of real eigenvalues in non-Hermitian systems Zhenyu Xiao, Kohei Kawabata, Xunlong Luo, Tomi Ohtsuki, and Ryuichi Shindou Phys. Rev. Research 4, 043196 (2022) – Published 19 December 2022 Time-reversal symmetry and pseudo-Hermicity are shown to lead to five universal level statistics of real eigenvalues of non-Hermitian systems, using random matrix theory analyses and numerical diagonalizations.     Field theory of survival probabilities, extreme values, first-passage times, and mean span of non-Markovian stochastic processes Benjamin Walter, Gunnar Pruessner, and Guillaume Salbreux Phys. Rev. Research 4, 043197 (2022) – Published 19 December 2022   Coherent control of the photoinduced transition in a strongly correlated material Eduardo B. Molinero and Rui E. F. Silva Phys. Rev. Research 4, 043198 (2022) – Published 19 December 2022   Parametric t-stochastic neighbor embedding with quantum neural network Yoshiaki Kawase, Kosuke Mitarai, and Keisuke Fujii Phys. Rev. Research 4, 043199 (2022) – Published 19 December 2022   Two-dimensional Hubbard model at finite temperature: Weak, strong, and long correlation regimes Fedor Šimkovic IV, Riccardo Rossi, and Michel Ferrero Phys. Rev. Research 4, 043201 (2022) – Published 20 December 2022   Dynamics of microswimmers near a soft penetrable interface Chao Feng, John J. Molina, Matthew S. Turner, and Ryoichi Yamamoto Phys. Rev. Research 4, 043202 (2022) – Published 21 December 2022   First-principles ultrafast exciton dynamics and time-domain spectroscopies: Dark-exciton mediated valley depolarization in monolayer WSe2 Hsiao-Yi Chen, Davide Sangalli, and Marco Bernardi Phys. Rev. Research 4, 043203 (2022) – Published 21 December 2022   Portfolio optimization with digitized counterdiabatic quantum algorithms N. N. Hegade, P. Chandarana, K. Paul, Xi Chen, F. Albarrán-Arriagada, and E. Solano Phys. Rev. Research 4, 043204 (2022) – Published 22 December 2022   Power-law fluctuations near critical point in semiconductor lasers with delayed feedback Tomoaki Niiyama and Satoshi Sunada Phys. Rev. Research 4, 043205 (2022) – Published 22 December 2022   Anderson localization of emergent quasiparticles: Spinon and vison interplay at finite temperature in a Z2 gauge theory in three dimensions Minho Kim, Giuseppe De Tomasi, and Claudio Castelnovo Phys. Rev. Research 4, 043206 (2022) – Published 23 December 2022   Kardar-Parisi-Zhang universality in discrete two-dimensional driven-dissipative exciton polariton condensates Konstantinos Deligiannis, Quentin Fontaine, Davide Squizzato, Maxime Richard, Sylvain Ravets, Jacqueline Bloch, Anna Minguzzi, and Léonie Canet Phys. Rev. Research 4, 043207 (2022) – Published 23 December 2022   Branching in flow networks with linear congestion Matthias Dahlmanns, Franz Kaiser, and Dirk Witthaut Phys. Rev. Research 4, 043208 (2022) – Published 23 December 2022   Perfect one-dimensional interface states in a twisted stack of three-dimensional topological insulators Manato Fujimoto, Takuto Kawakami, and Mikito Koshino Phys. Rev. Research 4, 043209 (2022) – Published 26 December 2022   Efficient quantum computation of molecular forces and other energy gradients Thomas E. O'Brien, Michael Streif, Nicholas C. Rubin, Raffaele Santagati, Yuan Su, William J. Huggins, Joshua J. Goings, Nikolaj Moll, Elica Kyoseva, Matthias Degroote, Christofer S. Tautermann, Joonho Lee, Dominic W. Berry, Nathan Wiebe, and Ryan Babbush Phys. Rev. Research 4, 043210 (2022) – Published 26 December 2022   Observation of stochastic resonance in directed propagation of cold atoms Alexander Staron, Kefeng Jiang, Casey Scoggins, Daniel Wingert, David Cubero, and Samir Bali Phys. Rev. Research 4, 043211 (2022) – Published 26 December 2022   Exact dynamics in dual-unitary quantum circuits with projective measurements Pieter W. Claeys, Marius Henry, Jamie Vicary, and Austen Lamacraft Phys. Rev. Research 4, 043212 (2022) – Published 26 December 2022   Protection of all nondefective twofold degeneracies by antiunitary symmetries in non-Hermitian systems Sharareh Sayyad Phys. Rev. Research 4, 043213 (2022) – Published 26 December 2022   Magnon transport and thermoelectric effects in ultrathin Tm3Fe5O12/Pt nonlocal devices Jialiang Gao, Charles-Henri Lambert, Richard Schlitz, Manfred Fiebig, Pietro Gambardella, and Saül Vélez Phys. Rev. Research 4, 043214 (2022) – Published 26 December 2022   Constructing multipartite Bell inequalities from stabilizers Qi Zhao and You Zhou Phys. Rev. Research 4, 043215 (2022) – Published 26 December 2022   Machine-learning-accelerated Bose-Einstein condensation Zachary Vendeiro, Joshua Ramette, Alyssa Rudelis, Michelle Chong, Josiah Sinclair, Luke Stewart, Alban Urvoy, and Vladan Vuletić Phys. Rev. Research 4, 043216 (2022) – Published 27 December 2022   Lifetime of spin-orbit induced spin textures in a semiconductor heterostructure probed by quantum corrections to conductivity Takahito Saito, Toshimichi Nishimura, Ju-Young Yoon, Jonas Kölzer, Daisuke Iizasa, Michael Kammermeier, Thomas Schäpers, Junsaku Nitta, and Makoto Kohda Phys. Rev. Research 4, 043217 (2022) – Published 27 December 2022   Efficient diagnostics for quantum error correction Pavithran Iyer, Aditya Jain, Stephen D. Bartlett, and Joseph Emerson Phys. Rev. Research 4, 043218 (2022) – Published 27 December 2022   Robustness versus sensitivity in non-Hermitian topological lattices probed by pseudospectra Ioannis Komis, Dimitrios Kaltsas, Shiqi Xia, Hrvoje Buljan, Zhigang Chen, and Konstantinos G. Makris Phys. Rev. Research 4, 043219 (2022) – Published 29 December 2022   Circuit connectivity boosts by quantum-classical-quantum interfaces Roeland Wiersema, Leonardo Guerini, Juan Felipe Carrasquilla, and Leandro Aolita Phys. Rev. Research 4, 043221 (2022) – Published 29 December 2022   Deterministic bulk-boundary correspondences for skin and edge modes in a general two-band non-Hermitian system Chong Hou, Lingfang Li, Shihua Chen, Yi Liu, Luqi Yuan, Yiqi Zhang, and Zhenhua Ni Phys. Rev. Research 4, 043222 (2022) – Published 29 December 2022   Emergence of growth and dormancy from a kinetic model of the Escherichia coli central carbon metabolism Yusuke Himeoka and Namiko Mitarai Phys. Rev. Research 4, 043223 (2022) – Published 30 December 2022   Seeing moiré: Convolutional network learning applied to twistronics Diyi Liu, Mitchell Luskin, and Stephen Carr Phys. Rev. Research 4, 043224 (2022) – Published 30 December 2022   From Kosterlitz-Thouless to Pokrovsky-Talapov transitions in spinless fermions and spin chains with next-nearest-neighbor interactions Natalia Chepiga Phys. Rev. Research 4, 043225 (2022) – Published 30 December 2022     American Physical Society: 1 Physics Ellipse, College Park, MD 20740 ©2023 American Physical Society | All rights reserved   You are receiving this email because you are subscribed to Table of Content alerts. If you no longer wish to receive these emails, please update your preferences.