| Volume 13, Issue 3 (partial) July - September 2023 | |
Advertisement | APS has launched two new webinar series. The new Activating Industry Careers series will feature Dr. Peter S. Fisk with "Show Me the Money! Compensation in the Physics Industry" on September 19. The PULSE series for undergraduate students will launch with "Possible Research Areas" on September 27. Register now. | | | | | Advertisement | Abstract submissions are officially open for the APS March Meeting 2024! Showcase your work to a global audience of physicists, scientists, and students representing 32 APS Units and Committees and explore groundbreaking research from industry, academia, and major labs. Start preparing your abstract and be sure to submit it by October 20. Submit an abstract. | | | | | | Not an APS member? Join today to start connecting with a community of more than 50,000 physicists. | | | | Raphael Dahan, Gefen Baranes, Alexey Gorlach, Ron Ruimy, Nicholas Rivera, and Ido Kaminer Phys. Rev. X 13, 031001 (2023) – Published 6 July 2023  | A new approach to generating quantum states of light most suitable for robust quantum computing draws on one of the most basic interactions in physics—the interaction between free electrons and photons. | | | | | | Rosario R. Riso, Laura Grazioli, Enrico Ronca, Tommaso Giovannini, and Henrik Koch Phys. Rev. X 13, 031002 (2023) – Published 7 July 2023  | Strongly coupling chiral molecules to circularly polarized light in an optical cavity give the two mirror-image forms of these molecules different energies, suggesting a viable way to differentiate between them. | | | | | | Featured in Physics Pablo Gottheil, Jürgen Lippoldt, Steffen Grosser, Frédéric Renner, Mohamad Saibah, Dimitrij Tschodu, Anne-Kathrin Poßögel, Anne-Sophie Wegscheider, Bernhard Ulm, Kay Friedrichs, Christoph Lindner, Christoph Engel, Markus Löffler, Benjamin Wolf, Michael Höckel, Bahriye Aktas, Hans Kubitschke, Axel Niendorf, and Josef A. Käs Phys. Rev. X 13, 031003 (2023) – Published 10 July 2023  | A concept in condensed-matter physics called jamming provides a possible prognostic tool for cancer. | | | | | | S. Karanth et al. (JEDI Collaboration) Phys. Rev. X 13, 031004 (2023) – Published 12 July 2023  | A first-of-its-kind search for axionlike particles, proposed as a candidate for dark matter, provides upper limits on coupling strengths between the hypothetical particles and deuterons. | | | | | | Yuxuan Zhang, Naren Manjunath, Gautam Nambiar, and Maissam Barkeshli Phys. Rev. X 13, 031005 (2023) – Published 14 July 2023  | A theoretical analysis shows that a quantized charge polarization is well-defined in an insulator with a magnetic field and nonzero quantized Hall conductance, offering an inroad to a deeper understanding of crystalline topological phases. | | | | | | Fabio Müller, Henrik Christiansen, Stefan Schnabel, and Wolfhard Janke Phys. Rev. X 13, 031006 (2023) – Published 17 July 2023  | A new algorithm for fast Monte Carlo simulations of long-range interacting systems provides speedup factors of up to several thousand, thanks to a hierarchical and dynamical organization of the interactions. | | | | | | Oscar Higgott, Thomas C. Bohdanowicz, Aleksander Kubica, Steven T. Flammia, and Earl T. Campbell Phys. Rev. X 13, 031007 (2023) – Published 19 July 2023  | New, efficient, classical software for controlling quantum error-correcting codes exploits the structure of relevant noise models to outperform the state-of-the-art in terms of accuracy. | | | | | | Marcin Kalinowski, Nishad Maskara, and Mikhail D. Lukin Phys. Rev. X 13, 031008 (2023) – Published 21 July 2023  | A new approach to efficiently simulating non-Abelian topological matter relies on a periodic sequence of quantum gate operations in a neutral atom array. | | | | | | Yue Sun, Tao Shi, Zhiyong Liu, Zhidong Zhang, Liantuan Xiao, Suotang Jia, and Ying Hu Phys. Rev. X 13, 031009 (2023) – Published 24 July 2023  | Engineered non-Hermiticity, which effectively controls the interaction between a quantum system and a bath along with the bath itself, gives rise to novel quantum phenomena. | | | | | | G. Grissonnanche, O. Cyr-Choinière, J. Day, R. Liang, D. A. Bonn, W. N. Hardy, N. Doiron-Leyraud, and L. Taillefer Phys. Rev. X 13, 031010 (2023) – Published 25 July 2023  | When cooled to the enigmatic pseudogap phase, a cuprate shows no direct evidence of charges rearranging along a particular direction, resolving an issue that has been debated for over 20 years. | | | | | | Ofer Neufeld, Nicolas Tancogne-Dejean, Hannes Hübener, Umberto De Giovannini, and Angel Rubio Phys. Rev. X 13, 031011 (2023) – Published 28 July 2023  | The first ab initio study of high-harmonic generation as a possible probe of topology finds that reliable and universal signatures of topological phases likely do not exist in the emission spectra. | | | | | | Dayou Yang, Susana F. Huelga, and Martin B. Plenio Phys. Rev. X 13, 031012 (2023) – Published 31 July 2023  | A universal quantum noise cancellation strategy unlocks the ultimate sensitivity limit of generic quantum sensors subjected to continuous measurements. | | | | | | Berislav Buča Phys. Rev. X 13, 031013 (2023) – Published 2 August 2023  | A theory that proves the eigenstate thermalization hypothesis—a cornerstone of nonequilibrium quantum physics—provides a framework for analytical solutions of the long-time dynamics of quantum many-body systems. | | | | | | Sam Wilken, Aria Chaderjian, and Omar A. Saleh Phys. Rev. X 13, 031014 (2023) – Published 4 August 2023  | Synthetic DNA droplets form hyperuniform structures upon phase separation, a finding that provides a foundation for investigating droplet-droplet formation in more general phase-separating biomolecular systems. | | | | | | Le Liu, Xin Lu, Yanbang Chu, Guang Yang, Yalong Yuan, Fanfan Wu, Yiru Ji, Jinpeng Tian, Kenji Watanabe, Takashi Taniguchi, Luojun Du, Dongxia Shi, Jianpeng Liu, Jie Shen, Li Lu, Wei Yang, and Guangyu Zhang Phys. Rev. X 13, 031015 (2023) – Published 7 August 2023  | Experiments on twisted double bilayer graphene reveal the ferromagnetic long-range order and various first-order quantum phase transitions between different broken symmetry states. | | | | | | Ruochen Ma and Chong Wang Phys. Rev. X 13, 031016 (2023) – Published 9 August 2023  | Symmetry-protected topological phases—quantum states typically defined by some exact symmetry—are also well defined for average symmetries, where disorder locally breaks the symmetry but restores it on average. | | | | | | Florian Kranzl, Stefan Birnkammer, Manoj K. Joshi, Alvise Bastianello, Rainer Blatt, Michael Knap, and Christian F. Roos Phys. Rev. X 13, 031017 (2023) – Published 11 August 2023  | Periodic driving of a chain of 20 trapped ions realizes a model of quantum spins that allows for the first experimental demonstration of bound magnon states in the presence of long-range spin interactions. | | | | | | Juliana J. Park, Hyungmok Son, Yu-Kun Lu, Tijs Karman, Marcin Gronowski, Michał Tomza, Alan O. Jamison, and Wolfgang Ketterle Phys. Rev. X 13, 031018 (2023) – Published 14 August 2023  | The observation of 25 newly identified collisional resonances in a mixture of NaLi molecules and Na atoms offers new insight into the microscopic mechanism of resonant couplings. | | | | | | Lucas Sá, Pedro Ribeiro, and Tomaž Prosen Phys. Rev. X 13, 031019 (2023) – Published 16 August 2023  | A framework for the classification of universal properties of realistic, chaotic, dissipative quantum systems offers building blocks of dynamic dissipative evolution, with a potential impact on the fabrication of complex quantum structures. | | | | | | Víctor López-Pastor and Florian Marquardt Phys. Rev. X 13, 031020 (2023) – Published 18 August 2023  | A wide class of physical systems could be turned into learning machines, thanks to a new general approach to training them based entirely on physical dynamics combined with a time-reversal operation. | | | | | | Freya Behrens, Barbora Hudcová, and Lenka Zdeborová Phys. Rev. X 13, 031021 (2023) – Published 21 August 2023  | A simple twist on a mainstay tool for analyzing the dynamics of disordered systems provides a way to describe out-of-equilibrium properties, which are traditionally much harder to obtain. | | | | | | Eric I. Rosenthal, Christopher P. Anderson, Hannah C. Kleidermacher, Abigail J. Stein, Hope Lee, Jakob Grzesik, Giovanni Scuri, Alison E. Rugar, Daniel Riedel, Shahriar Aghaeimeibodi, Geun Ho Ahn, Kasper Van Gasse, and Jelena Vučković Phys. Rev. X 13, 031022 (2023) – Published 30 August 2023  | Use of strain on a tin-vacancy defect in diamond allows for magnetic-field interactions that in turn enable microwave control over its spin, a key step for using such defects to encode quantum information. | | | | | | | |
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