| Volume 13, Issue 2 (partial) April - June 2023 | | Advertisement Discuss your research with Editors from the Physical Review Journals at DAMOP 2023 Got a question about your paper? Interested in learning more about the submission process? Want to become a referee? There are several opportunities to gain insight from editors from Physical Review Letters, Physical Review X, and Physical Review A at the 54th Annual Meeting of the APS Division of Atomic, Molecular and Optical Physics in Spokane, Washington.
Tutorial for Authors and Referees - Wednesday, June 7 from 3:30 p.m. – 4:30 p.m. in Room 201 ABC
Meet the APS Journal Editors - Wednesday, June 7 from 4:30 p.m. – 6:00 p.m. in the Riverside Lobby.
Plus, editors will be available for informal discussions at the Journals Booth, located in the Lobby area from 10 a.m. - 11 a.m., Monday, June 6 through Thursday, June 8, and again from 3:30 p.m. - 4:30 p.m. Tuesday, June 7 and Thursday, June 8. | | | | |
Advertisement  | The American Physical Society (APS), publisher of the Physical Review journals, is joining more than 20,000 individuals and organizations across 160 countries in a commitment to improve how researchers and their contributions to the scientific record are evaluated. APS is proud to mark the 10th anniversary of the Declaration on Research Assessment (DORA) by officially signing on to the international initiative. Learn more. | | | | | | Advertisement | APS would like to learn about your publishing experiences with scientific journals, including PRL and other Physical Review journals. Please complete this survey to help APS better understand and meet your publishing needs. Take the survey. | | | | | | Not an APS member? Join today to start connecting with a community of more than 50,000 physicists. | | | | Lukas Bulla, Matej Pivoluska, Kristian Hjorth, Oskar Kohout, Jan Lang, Sebastian Ecker, Sebastian P. Neumann, Julius Bittermann, Robert Kindler, Marcus Huber, Martin Bohmann, and Rupert Ursin Phys. Rev. X 13, 021001 (2023) – Published 3 April 2023  | High-dimensional entanglement among photons allows for a roughly 10-km free-space quantum communication link in an urban environment that is robust to noise. | | | | | | Tal Einav, Yuehaw Khoo, and Amit Singer Phys. Rev. X 13, 021002 (2023) – Published 4 April 2023  | A new tool transforms pairwise interactions within a dataset into a cohesive global picture that predicts how the system can behave. | | | | | | Jorge Fernandez-de-Cossio-Diaz, Simona Cocco, and Rémi Monasson Phys. Rev. X 13, 021003 (2023) – Published 5 April 2023  | A new way for machine learning to disentangle representations of complex data relies on a single, simple model rather than adversarial training of two competing neural networks. | | | | | | Xiaozhou Pan, Jonathan Schwinger, Ni-Ni Huang, Pengtao Song, Weipin Chua, Fumiya Hanamura, Atharv Joshi, Fernando Valadares, Radim Filip, and Yvonne Y. Gao Phys. Rev. X 13, 021004 (2023) – Published 7 April 2023  | Compressing the spectral content of quantum interference features in Schrödinger cat states to lower frequencies protects them against photon loss and preserves the most valuable characteristics that enable many quantum technologies. | | | | | | Stephen Whitelam Phys. Rev. X 13, 021005 (2023) – Published 10 April 2023  | A deep neural network learns feedback-control protocols that convert information obtained from measuring a fluctuating nanosystem into heat or work. | | | | | | Paul Züge, Christian Klos, and Raoul-Martin Memmesheimer Phys. Rev. X 13, 021006 (2023) – Published 11 April 2023  | In neural networks, a reward-based rule that relies on perturbing network weights can perform as well as or better than the more commonly studied node perturbation approach. | | | | | | Kohei Kawabata, Tokiro Numasawa, and Shinsei Ryu Phys. Rev. X 13, 021007 (2023) – Published 12 April 2023  | In open quantum systems, a macroscopic flow of particles and concomitant anomalous localization play an important role in the entanglement dynamics. | | | | | | Gregor Jotzu, Guido Meier, Alice Cantaluppi, Andrea Cavalleri, Daniele Pontiroli, Mauro Riccò, Arzhang Ardavan, and Moon-Sun Nam Phys. Rev. X 13, 021008 (2023) – Published 17 April 2023  | Precursors of superconductivity well above the critical temperature in K3C60 imply the presence of Cooper pairs at high temperature, which may help explain why light can raise the critical temperature of this material. | | | | | | Wei Zhu, Chao Han, Emilie Huffman, Johannes S. Hofmann, and Yin-Chen He Phys. Rev. X 13, 021009 (2023) – Published 18 April 2023  | A new theoretical scheme of studying the 3D Ising transition—a celebrated phase transition in a model of ferromagnetism—provides insights into the conformal symmetry long conjectured to emerge. | | | | | | Pinyao He, Allard J. Katan, Luca Tubiana, Cees Dekker, and Davide Michieletto Phys. Rev. X 13, 021010 (2023) – Published 19 April 2023  | This high-resolution imaging study investigates a unique interlinked DNA found in certain single-cell parasites and reveals the genome's unusual structure and topology at single-molecule resolution. | | | | | | Maria Chiara Angelini and Federico Ricci-Tersenghi Phys. Rev. X 13, 021011 (2023) – Published 20 April 2023  | A new theory, supported by large-scale numerical simulations, explores the conditions under which two Monte Carlo–based optimization algorithms can extract a signal from noisy data. | | | | | | Yarden Sheffer, Raquel Queiroz, and Ady Stern Phys. Rev. X 13, 021012 (2023) – Published 24 April 2023  | A new criterion for determining what materials can be fine-tuned to have very slowly moving electrons could lead to new platforms for studying novel phenomena arising from electron correlation. | | | | | | Kenneth G. Jackson, Colin J. Dale, Jeff Maki, Kevin G. S. Xie, Ben A. Olsen, Denise J. M. Ahmed-Braun, Shizhong Zhang, and Joseph H. Thywissen Phys. Rev. X 13, 021013 (2023) – Published 25 April 2023  | The wave function of fermions always acquires a minus sign when particles trade places. But an experiment shows that fermions confined to a quasi-one-dimensional space seem to circumvent this exchange symmetry. | | | | | | Featured in Physics Lev Arzamasskiy, Matthew W. Kunz, Jonathan Squire, Eliot Quataert, and Alexander A. Schekochihin Phys. Rev. X 13, 021014 (2023) – Published 26 April 2023  | New computer simulations show that wave-particle interactions endow thin plasmas with an effective viscosity that regulates their turbulent motions and heating. | | | | | | Hiroshi Shinaoka, Markus Wallerberger, Yuta Murakami, Kosuke Nogaki, Rihito Sakurai, Philipp Werner, and Anna Kauch Phys. Rev. X 13, 021015 (2023) – Published 27 April 2023  | A new way of encoding multipoint correlation functions—key to representing complex correlations among particles—greatly reduces their computation time and storage requirements. | | | | | | Hanchen Wang, Marco Madami, Jilei Chen, Hao Jia, Yu Zhang, Rundong Yuan, Yizhan Wang, Wenqing He, Lutong Sheng, Yuelin Zhang, Jinlong Wang, Song Liu, Ka Shen, Guoqiang Yu, Xiufeng Han, Dapeng Yu, Jean-Philippe Ansermet, Gianluca Gubbiotti, and Haiming Yu Phys. Rev. X 13, 021016 (2023) – Published 28 April 2023  | The first experimental demonstration of magnons, or spin waves, in a nanostructured moiré lattice sets the stage for exploring the potential role of such systems in novel magnonic devices for information processing. | | | | | | Martin Rymarz and David P. DiVincenzo Phys. Rev. X 13, 021017 (2023) – Published 1 May 2023  | An analysis of a common approach to describing singular superconducting circuits quantum mechanically shows that it can lead to wrong predictions of the system's dynamics. | | | | | | Featured in Physics Federico Mogavero, Nam H. Hoang, and Jacques Laskar Phys. Rev. X 13, 021018 (2023) – Published 3 May 2023  | A new theory explains why our planets avoid collisions for far longer times than standard theories of planetary stability predict. | | | | | | Teng Zhang, Huan Yang, Denis Martynov, Patricia Schmidt, and Haixing Miao Phys. Rev. X 13, 021019 (2023) – Published 4 May 2023  | A simple modification to gravitational wave detector designs could allow future observatories to study the postmerger physics of a binary neutron star merger, to which current facilities are not sensitive. | | | | | | Vladimir Dergachev and Maria Alessandra Papa Phys. Rev. X 13, 021020 (2023) – Published 5 May 2023  | The first ever "atlas" of continuous gravitational-wave amplitudes at every point on the sky provides a rich dataset in which to conduct searches for nonaxisymmetric neutron stars. | | | | | | Yotam Shapira, Tom Manovitz, Nitzan Akerman, Ady Stern, and Roee Ozeri Phys. Rev. X 13, 021021 (2023) – Published 9 May 2023  | A trapped-ion quantum computer simulates the behavior of many-body quantum spin systems with interesting geometries and the effects of magnetic fields and interactions on them. | | | | | | Featured in Physics Hongda Jiang and Shenshen Wang Phys. Rev. X 13, 021022 (2023) – Published 10 May 2023  | A study of the mechanical forces in certain immune cells may give new insights into how organisms deal with ever-evolving pathogens. | | | | | | Maryse Ernzer, Manel Bosch Aguilera, Matteo Brunelli, Gian-Luca Schmid, Thomas M. Karg, Christoph Bruder, Patrick P. Potts, and Philipp Treutlein Phys. Rev. X 13, 021023 (2023) – Published 15 May 2023  | The first demonstration of optical coherent feedback in an optomechanical system controls the motion of a mechanical oscillator and cools it by more than 4 orders of magnitude, a prerequisite for quantum applications. | | | | | | Dongyang Wang, Ying Wu, Z. Q. Zhang, and C. T. Chan Phys. Rev. X 13, 021024 (2023) – Published 16 May 2023  | Non-Abelian frame charges—mathematical entities used to describe certain topological properties—can also help understand band degeneracies in ordinary optical media. | | | | | | Zengyi Du, Hui Li, Genda Gu, Abhay N. Pasupathy, John M. Tranquada, and Kazuhiro Fujita Phys. Rev. X 13, 021025 (2023) – Published 17 May 2023  | A novel technique reveals a high-fidelity local distortion of the atomic lattice in the charge-density-wave state of a cuprate, providing the first direct evidence of electron-lattice coupling in real space. | | | | | | Samuel J. Garratt, Zack Weinstein, and Ehud Altman Phys. Rev. X 13, 021026 (2023) – Published 18 May 2023  | When quantum critical states are measured in many locations, new collective phenomena can emerge. There are transitions between two regimes: one where the effects of measurements on correlations are negligible, and one where they are dramatic. | | | | | | Jennifer A. Black, Zachary L. Newman, Su-Peng Yu, David R. Carlson, and Scott B. Papp Phys. Rev. X 13, 021027 (2023) – Published 19 May 2023  | A demonstration of an optical synthesizer—a laser light source whose wavelength can be programmed—showcases a tool that can provide arbitrary wavelength access to applications such as signal processing and quantum sensing. | | | | | | Pei Liu, Ruixia Wang, Jing-Ning Zhang, Yingshan Zhang, Xiaoxia Cai, Huikai Xu, Zhiyuan Li, Jiaxiu Han, Xuegang Li, Guangming Xue, Weiyang Liu, Li You, Yirong Jin, and Haifeng Yu Phys. Rev. X 13, 021028 (2023) – Published 23 May 2023  | A multilevel qubit, or "qudit," in a superconducting transmon shows high fidelity with several rudimentary algorithms, demonstrating the potential of a quantum computing architecture based on up to four levels rather than just two. | | | | | | Dongjun Li, Pratik Wagle, Yanbei Chen, and Nicolás Yunes Phys. Rev. X 13, 021029 (2023) – Published 25 May 2023  | A mathematical formalism for studying quasinormal gravitational-wave modes from coalescing black holes provides a tool for testing modifications to general relativity. | | | | | | Featured in Physics Jianzhu Ju, Gabriel E. Sanoja, Med Yassine Nagazi, Luca Cipelletti, Zezhou Liu, Chung Yuen Hui, Matteo Ciccotti, Tetsuharu Narita, and Costantino Creton Phys. Rev. X 13, 021030 (2023) – Published 26 May 2023  | A combination of two techniques provides warning signs that the stress on a material will lead to failure. | | | | | | Featured in Physics Paolo Colciaghi, Yifan Li, Philipp Treutlein, and Tilman Zibold Phys. Rev. X 13, 021031 (2023) – Published 30 May 2023  | A new demonstration involving hundreds of entangled atoms tests Schrödinger's interpretation of Einstein, Rosen, and Podolsky's classic thought experiment. | | | | | | I. Samoylenko, D. Aleja, E. Primo, K. Alfaro-Bittner, E. Vasilyeva, K. Kovalenko, D. Musatov, A. M. Raigorodskii, R. Criado, M. Romance, D. Papo, M. Perc, B. Barzel, and S. Boccaletti Phys. Rev. X 13, 021032 (2023) – Published 31 May 2023  | The "six degrees of separation" are the property of the equilibrium state of any network where individuals weigh their aspiration to improve their centrality against the costs incurred in forming or maintaining connections. | | | | | | Minh C. Tran, Chi-Fang Chen, Adam Ehrenberg, Andrew Y. Guo, Abhinav Deshpande, Yifan Hong, Zhe-Xuan Gong, Alexey V. Gorshkov, and Andrew Lucas Phys. Rev. X 13, 029901 (2023) – Published 21 April 2023 | | | Alec Jenkins, Joanna W. Lis, Aruku Senoo, William F. McGrew, and Adam M. Kaufman Phys. Rev. X 13, 029902 (2023) – Published 31 May 2023 | | | | |
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