Phonon-limited transport in two-dimensional materials: A unified approach for ab initio mobility and current calculations Jonathan Backman, Youseung Lee, and Mathieu Luisier Phys. Rev. Applied 21, 054017 (2024) – Published 8 May 2024 Transition-metal dichalcogenides (TMDCs) are promising building blocks for future electronic circuits, but their performance is often hindered by poorly understood electron-phonon interactions. This study leverages a fresh ab initio approach, combining density-functional theory with the linearized Boltzmann transport equation (LBTE) and nonequilibrium Green’s functions (NEGF), to explore phonon-limited transport in TMDCs. The authors find that LBTE and NEGF return very similar mobility values despite the different approximations upon which they rely, thus paving the way for comprehensive device simulations that include electron-phonon scattering. Show Abstract Computational Physics Electronics Semiconductor Physics PDFHTML Editors' Suggestion Measurement-driven neural-network training for integrated magnetic tunnel junction arrays William A. Borders, Advait Madhavan, Matthew W. Daniels, Vasileia Georgiou, Martin Lueker-Boden, Tiffany S. Santos, Patrick M. Braganca, Mark D. Stiles, Jabez J. McClelland, and Brian D. Hoskins Phys. Rev. Applied 21, 054028 (2024) – Published 14 May 2024 Defective devices can severely impact the performance of hardware-based neural networks, in particular resistive crossbar arrays. This study introduces a network training approach that reduces the influence of defective devices, maintaining inference accuracy. The authors demonstrate this approach on a set of dies each containing a crossbar array consisting of 20,000 magnetic tunnel junction devices. They also develop a generalized approach using the statistics of defects and demonstrate similar performance on all dies. These results translate to a manufacturing setting where millions of dies with possible defects are produced, but the performance of even subpar chips can be guaranteed. Show Abstract Computational Physics Electronics Spintronics PDFHTML Editors' Suggestion Acoustically driven single-frequency mechanical logic Erick Romero, Nicolas P. Mauranyapin, Timothy M.F. Hirsch, Rachpon Kalra, Christopher G. Baker, Glen I. Harris, and Warwick P. Bowen Phys. Rev. Applied 21, 054029 (2024) – Published 15 May 2024 Nanomechanical computers promise robust, low-energy information processing, but generally require electronics to handle bits with different oscillation frequencies, limiting scalability. The authors present an acoustically driven logic gate with a single frequency of operation, with the logic states defined by a nonlinear mechanical resonator, allowing purely mechanical information transfer. Since inputs and output all share the same frequency, they are compatible with cascaded chains of gates. This architecture is CMOS-compatible, and with miniaturization could permit energy efficiency approaching the fundamental Landauer limit. Show Abstract Computational Physics Mechanics Nanophysics PDFHTML Editors' Suggestion All-optical spin access via a cavity-broadened optical transition in on-chip hybrid quantum photonics Lukas Antoniuk, Niklas Lettner, Anna P. Ovvyan, Simon Haugg, Marco Klotz, Helge Gehring, Daniel Wendland, Viatcheslav N. Agafonov, Wolfram H.P. Pernice, and Alexander Kubanek Phys. Rev. Applied 21, 054032 (2024) – Published 16 May 2024 Using cavity quantum electrodynamics to enhance light-matter interaction has been pursued with increasing efforts to develop miniaturized, stable, and fully integrated systems for quantum networks or secure communication. Hybrid systems combining photonic platforms and quantum systems are a valid option, but accessing individual spin states remains challenging. This work explores the combination of silicon nitride photonics and negatively charged silicon-vacancy centers in nanodiamonds as a spin-photon interface and elaborates on the hybrid system’s performance. The results can be used to benchmark and outline future spin-based quantum photonic devices. Show Abstract Photonics Quantum Information PDFHTML Editors' Suggestion Solution to the cocktail party problem: A time-reversal active metasurface for multipoint focusing Constant Bourdeloux, Mathias Fink, and Fabrice Lemoult Phys. Rev. Applied 21, 054039 (2024) – Published 21 May 2024 The cocktail party effect refers to the brain’s ability to focus on a single auditory stimulus amidst the cacophony of background noise. This selective attention also resonates in electromagnetic telecommunication, where the surge in wireless communication exacerbates signal interference. To address that issue, researchers have developed reconfigurable intelligent surfaces, mirrors that dynamically shape their reflectivity to enhance wireless performance. Drawing inspiration from these advancements, the authors propose to extend this concept to the acoustic domain, where similar issues of signal clarity and interference persist, but over a much wider frequency range. Show Abstract Acoustics Metamaterials PDFHTML LETTERS Letter Geometric Ramsey interferometry with a tripod scheme Chetan Sriram Madasu, Ketan Damji Rathod, Chang Chi Kwong, and David Wilkowski Phys. Rev. Applied 21, L051001 (2024) – Published 8 May 2024 Ramsey interferometry is an important technique in precision spectroscopy and quantum coherence measurement. The authors explore an innovative scheme in which splitter pulses are implemented by geometrical means, eliminating the temporal dependence of the atom-light interaction. This translates to an interferometer that is insensitive to the mean velocity of the atomic ensemble, making it suitable for applications in quantum computing and simulation, as well as atomtronic circuits. Using this geometric Ramsey interferometer, the team measures the phase accumulation during the free-evolution time due to a geometric scalar term. Show Abstract Optics Quantum Information PDFHTML Letter Stability-derived bounds on the realizable acoustic properties of active metamaterials Dylan A. Kovacevich, Karl Grosh, and Bogdan-Ioan Popa Phys. Rev. Applied 21, L051002 (2024) – Published 28 May 2024 Active metamaterials promise advanced wave control beyond what is achievable with passive structures. Practical bulk devices have yet to be realized, though, for lack of a method to assess the stability of interacting cells. The authors address this obstacle by developing a general stability analysis that requires only the frequency response of an isolated unit cell to determine the stability of metamaterials of many such cells arranged in arbitrary geometries. This analysis is used to accurately predict the stability bounds of an experimental active acoustic metamaterial, and to reveal key constraints that must be respected when designing e.g. waveguides, cloaks, or noise absorbers. Show Abstract Acoustics Metamaterials PDFHTML ARTICLES Molecular-hybridization-induced antidamping and sizeable enhanced spin-to-charge conversion in Co 20 Fe 60 B 20 / 𝛽 - W / C 60 heterostructures Antarjami Sahoo, Aritra Mukhopadhyaya, Swayang Priya Mahanta, Md. Ehesan Ali, and Subhankar Bedanta Phys. Rev. Applied 21, 054001 (2024) – Published 1 May 2024 Show Abstract Magnetism Materials Science Spintronics PDFHTML Double-free-layer stochastic magnetic tunnel junctions with synthetic antiferromagnets Kemal Selcuk, Shun Kanai, Rikuto Ota, Hideo Ohno, Shunsuke Fukami, and Kerem Y. Camsari Phys. Rev. Applied 21, 054002 (2024) – Published 1 May 2024 Show Abstract Computational Physics Magnetism Spintronics PDFHTML Topological transmission in Suzuki-phase sonic crystals Zhen Huang, Francisco Cervera, Jiu Hui Wu, Martin Ibarias, Chongrui Liu, Victor M. García-Chocano, Fuyin Ma, and José Sánchez-Dehesa Phys. Rev. Applied 21, 054003 (2024) – Published 2 May 2024 Show Abstract Acoustics Metamaterials Topological Insulators PDFHTML High-order gravitational gradient effect in the gravity gradient measurement by the Eötvös-type torsion balance Qi-Long Gong, Yi-Xue Wang, Lin Zhu, Qi Liu, and Cheng-Gang Shao Phys. Rev. Applied 21, 054004 (2024) – Published 2 May 2024 Show Abstract Geophysics Gravitation PDFHTML Mechanism for selective initialization of silicon-vacancy spin qubits with S = 3/2 in silicon carbide Jeongeun Park, Seoyoung Paik, Seung-Jae Hwang, Di Liu, Öney O. Soykal, Joerg Wrachtrup, and Sang-Yun Lee Phys. Rev. Applied 21, 054005 (2024) – Published 2 May 2024 Show Abstract Optoelectronics Quantum Information Semiconductor Physics PDFHTML Vortex decomposition and reconfiguration via transformation optics Zhibin Zhang, Pengfei Zhao, Junke Liao, Mengwei Dai, Jianyang Zhou, Wen Xiao, and Huanyang Chen Phys. Rev. Applied 21, 054006 (2024) – Published 2 May 2024 Show Abstract Metamaterials Optics PDFHTML Biphenylene nanoribbon as a promising electrocatalyst for hydrogen evolution Radha N Somaiya, Aftab Alam, Zicong Marvin Wong, Teck Leong Tan, and Brahmananda Chakraborty Phys. Rev. Applied 21, 054007 (2024) – Published 3 May 2024 Show Abstract Energy Research Physical Chemistry Semiconductor Physics PDFHTML Write-error reduction in voltage-driven magnetization switching using a recording layer with low magnetic damping Tatsuya Yamamoto, Tomohiro Ichinose, Takayuki Nozaki, Shingo Tamaru, Kay Yakushiji, Hitoshi Kubota, and Shinji Yuasa Phys. Rev. Applied 21, 054008 (2024) – Published 3 May 2024 Show Abstract Magnetism Spintronics PDFHTML Thickness-dependent photovoltaic effect in monocrystalline lithium niobate films of nanoscale thickness Yuchen Zhang, Sanbing Li, Yuejian Jiao, Xiaojie Wang, Feng Gao, Fang Bo, Jingjun Xu, and Guoquan Zhang Phys. Rev. Applied 21, 054009 (2024) – Published 3 May 2024 Show Abstract Energy Research Nanophysics Optoelectronics PDFHTML Selective energy filtering in a multiple-quantum-well nanodevice: The quantum cascade cooler Guéric Etesse, Chloé Salhani, Xiangyu Zhu, Nicolas Cavassilas, Kazuhiko Hirakawa, and Marc Bescond Phys. Rev. Applied 21, 054010 (2024) – Published 6 May 2024 Show Abstract Energy Research Quantum Physics Semiconductor Physics PDFHTML Zero-field quantum sensing via precise geometric controls for a spin-1 system Zhijie Li, Xiangyu Ye, Xi Kong, Tianyu Xie, Zhiping Yang, Pengju Zhao, Ya Wang, Fazhan Shi, and Jiangfeng Du Phys. Rev. Applied 21, 054011 (2024) – Published 6 May 2024 Show Abstract Magnetism Quantum Physics Quantum Information PDFHTML Negative anomalous Nernst coefficient in a Mn Al Ge film and its enhancement in a ( Mn - Cr ) Al Ge film Keita Ito, Takahide Kubota, and Koki Takanashi Phys. Rev. Applied 21, 054012 (2024) – Published 6 May 2024 Show Abstract Energy Research Magnetism Materials Science PDFHTML Extended state reshaping in non-Hermitian topolectrical circuits Chao Liu, Banxian Ruan, Weipeng Hu, Wei Lin, Xiaoyu Dai, Jien Wu, Leyong Jiang, and Yuanjiang Xiang Phys. Rev. Applied 21, 054013 (2024) – Published 6 May 2024 Show Abstract Electronics Topological Insulators PDFHTML Practical limitations of quantum data propagation on noisy quantum processors Gaurav Saxena, Ahmed Shalabi, and Thi Ha Kyaw Phys. Rev. Applied 21, 054014 (2024) – Published 7 May 2024 Show Abstract Quantum Information PDFHTML Realizing topological edge states in graphenelike elastic metamaterials Zhen Huang, Penglin Gao, Federico N. Ramírez, Jorge García-Tíscar, Alberto Broatch, Jiu Hui Wu, Fuyin Ma, and José Sánchez-Dehesa Phys. Rev. Applied 21, 054015 (2024) – Published 7 May 2024 Show Abstract Acoustics Metamaterials Topological Insulators PDFHTML Theoretical dissection of the electronic anisotropy and quantum transport of ultrascaled halogenated borophene MOSFETs Shiying Guo, Ying Wang, Hengze Qu, Wenhan Zhou, Yee Sin Ang, Shengli Zhang, and Haibo Zeng Phys. Rev. Applied 21, 054016 (2024) – Published 7 May 2024 Show Abstract Electronics Nanophysics Semiconductor Physics PDFHTML Editors' Suggestion Phonon-limited transport in two-dimensional materials: A unified approach for ab initio mobility and current calculations Jonathan Backman, Youseung Lee, and Mathieu Luisier Phys. Rev. Applied 21, 054017 (2024) – Published 8 May 2024 Transition-metal dichalcogenides (TMDCs) are promising building blocks for future electronic circuits, but their performance is often hindered by poorly understood electron-phonon interactions. This study leverages a fresh ab initio approach, combining density-functional theory with the linearized Boltzmann transport equation (LBTE) and nonequilibrium Green’s functions (NEGF), to explore phonon-limited transport in TMDCs. The authors find that LBTE and NEGF return very similar mobility values despite the different approximations upon which they rely, thus paving the way for comprehensive device simulations that include electron-phonon scattering. Show Abstract Computational Physics Electronics Semiconductor Physics PDFHTML Nonlinear inductive response of pinned superconducting vortices in artificial pinning sites A. Al Luhaibi, A. Glatz, and J. B. Ketterson Phys. Rev. Applied 21, 054018 (2024) – Published 8 May 2024 Show Abstract Optoelectronics Quantum Information Superconductivity PDFHTML Quasiparticle and excitonic structures of few-layer and bulk Ga Se : Interlayer coupling, self-energy, and electron-hole interaction Fanhao Jia, Zhao Tang, Greis J. Cruz, Weiwei Gao, Shaowen Xu, Wei Ren, and Peihong Zhang Phys. Rev. Applied 21, 054019 (2024) – Published 8 May 2024 Show Abstract Nanophysics Optoelectronics Semiconductor Physics PDFHTML Performance analysis of tabletop single-pulse terahertz detection at rates up to 1.1 MHz Nicolas Couture, Markus Lippl, Wei Cui, Angela Gamouras, Nicolas Y. Joly, and Jean-Michel Ménard Phys. Rev. Applied 21, 054020 (2024) – Published 9 May 2024 Show Abstract Optoelectronics Photonics PDFHTML Solid-state electrocaloric cooler controlled by a thermal switch Pedro M. Resende, Florian Le Goupil, Guillaume Fleury, and Georges Hadziioannou Phys. Rev. Applied 21, 054021 (2024) – Published 9 May 2024 Show Abstract Condensed Matter Physics Electronics Energy Research PDFHTML Damping reveals hidden dimensions in elastic metastructures through induced transparency Yanghao Fang, William Tuxbury, Abhishek Gupta, Tsampikos Kottos, and Ramathasan Thevamaran Phys. Rev. Applied 21, 054022 (2024) – Published 9 May 2024 Show Abstract Acoustics Mechanics Metamaterials PDFHTML Dynamic acoustic metasurfaces based on magnetic levitation Pu Xia, Jinjie Shi, Hongchen Chu, Xiaoxi Zhou, Xiaozhou Liu, and Yun Lai Phys. Rev. Applied 21, 054023 (2024) – Published 10 May 2024 Show Abstract Acoustics Magnetism Metamaterials PDFHTML Greatly enhanced fatigue resistance in Hf 0.5 Zr 0.5 O 2 / La 0.7 Sr 0.3 Mn O 3 superlattices Peijie Jiao, Zhiyu Liu, Hongying Chen, Mingkai Qing, Yurong Yang, Yu Deng, and Di Wu Phys. Rev. Applied 21, 054024 (2024) – Published 10 May 2024 Show Abstract Condensed Matter Physics Materials Science Nanophysics PDFHTML Hidden magnetism, nonlinear magnetodielectric coupling, and large multicaloric effect in multiferroic L-type Fe 2 ( Mo O 4 ) 3 P. Athira, Ajay Tiwari, M.-J. Hsieh, J.-Y. Lin, Nidhi Puri, C.W. Wang, C. H. Prashanth, C. Dhanasekhar, C.L. Huang, H.D. Yang, Krishnamurthy Jyothinagaram, and D. Chandrasekhar Kakarla Phys. Rev. Applied 21, 054025 (2024) – Published 13 May 2024 Show Abstract Condensed Matter Physics Energy Research Materials Science PDFHTML Stability and thermoelectric performance of the two-dimensional rare-earth compounds 𝑅 TeCl ( 𝑅 = La , Pr , Nd ) Haoran Wei, Xin Jin, Xiaoliang Xiao, Li Shi, Yuanhao Duan, Jing Fan, Rui Wang, and Xiaozhi Wu Phys. Rev. Applied 21, 054026 (2024) – Published 13 May 2024 Show Abstract Energy Research Nanophysics Semiconductor Physics PDFHTML Time-varying systems to improve the efficiency of wireless power transfer X. Wang, I. Krois, N. Ha-Van, M.S. Mirmoosa, P. Jayathurathnage, S. Hrabar, and S.A. Tretyakov Phys. Rev. Applied 21, 054027 (2024) – Published 14 May 2024 Show Abstract Energy Research Metamaterials Optoelectronics PDFHTML Editors' Suggestion Measurement-driven neural-network training for integrated magnetic tunnel junction arrays William A. Borders, Advait Madhavan, Matthew W. Daniels, Vasileia Georgiou, Martin Lueker-Boden, Tiffany S. Santos, Patrick M. Braganca, Mark D. Stiles, Jabez J. McClelland, and Brian D. Hoskins Phys. Rev. Applied 21, 054028 (2024) – Published 14 May 2024 Defective devices can severely impact the performance of hardware-based neural networks, in particular resistive crossbar arrays. This study introduces a network training approach that reduces the influence of defective devices, maintaining inference accuracy. The authors demonstrate this approach on a set of dies each containing a crossbar array consisting of 20,000 magnetic tunnel junction devices. They also develop a generalized approach using the statistics of defects and demonstrate similar performance on all dies. These results translate to a manufacturing setting where millions of dies with possible defects are produced, but the performance of even subpar chips can be guaranteed. Show Abstract Computational Physics Electronics Spintronics PDFHTML Editors' Suggestion Acoustically driven single-frequency mechanical logic Erick Romero, Nicolas P. Mauranyapin, Timothy M.F. Hirsch, Rachpon Kalra, Christopher G. Baker, Glen I. Harris, and Warwick P. Bowen Phys. Rev. Applied 21, 054029 (2024) – Published 15 May 2024 Nanomechanical computers promise robust, low-energy information processing, but generally require electronics to handle bits with different oscillation frequencies, limiting scalability. The authors present an acoustically driven logic gate with a single frequency of operation, with the logic states defined by a nonlinear mechanical resonator, allowing purely mechanical information transfer. Since inputs and output all share the same frequency, they are compatible with cascaded chains of gates. This architecture is CMOS-compatible, and with miniaturization could permit energy efficiency approaching the fundamental Landauer limit. Show Abstract Computational Physics Mechanics Nanophysics PDFHTML Light emission at reverse voltage in a wide-well ( In , Ga ) N / Ga N light-emitting diode Artem Bercha, Konrad Sakowski, Grzegorz Muziol, Mateusz Hajdel, and Witold Trzeciakowski Phys. Rev. Applied 21, 054030 (2024) – Published 15 May 2024 Show Abstract Energy Research Optoelectronics Semiconductor Physics PDFHTML Dual-polarized printed cylindrical metasurface cloak at microwave frequencies Hakjune Lee and Do-Hoon Kwon Phys. Rev. Applied 21, 054031 (2024) – Published 16 May 2024 Show Abstract Metamaterials Optics PDFHTML Editors' Suggestion All-optical spin access via a cavity-broadened optical transition in on-chip hybrid quantum photonics Lukas Antoniuk, Niklas Lettner, Anna P. Ovvyan, Simon Haugg, Marco Klotz, Helge Gehring, Daniel Wendland, Viatcheslav N. Agafonov, Wolfram H.P. Pernice, and Alexander Kubanek Phys. Rev. Applied 21, 054032 (2024) – Published 16 May 2024 Using cavity quantum electrodynamics to enhance light-matter interaction has been pursued with increasing efforts to develop miniaturized, stable, and fully integrated systems for quantum networks or secure communication. Hybrid systems combining photonic platforms and quantum systems are a valid option, but accessing individual spin states remains challenging. This work explores the combination of silicon nitride photonics and negatively charged silicon-vacancy centers in nanodiamonds as a spin-photon interface and elaborates on the hybrid system’s performance. The results can be used to benchmark and outline future spin-based quantum photonic devices. Show Abstract Photonics Quantum Information PDFHTML Inertial geometric quantum logic gates D. Turyansky, O. Ovdat, R. Dann, Z. Aqua, R. Kosloff, B. Dayan, and A. Pick Phys. Rev. Applied 21, 054033 (2024) – Published 17 May 2024 Show Abstract Atomic and Molecular Physics Optics Quantum Information PDFHTML Topological phase transition of photonic Chern insulators by multi-Mie-resonance inversion Hui Huang, Junzheng Hu, Xiaofei Ye, Shiqi Li, Haotian Li, Yao Jiang, Minghui Lu, and Peng Zhan Phys. Rev. Applied 21, 054034 (2024) – Published 17 May 2024 Show Abstract Photonics Topological Insulators PDFHTML Influence of chemical strains on the electrocaloric response, polarization morphology, tetragonality, and negative-capacitance effect of ferroelectric core-shell nanorods and nanowires Anna N. Morozovska, Eugene A. Eliseev, Olha A. Kovalenko, and Dean R. Evans Phys. Rev. Applied 21, 054035 (2024) – Published 20 May 2024 Show Abstract Condensed Matter Physics Materials Science Nanophysics PDFHTML Strain effects on the magnon-magnon interaction and magnon relaxation time in ferromagnetic Cr Ge Te 3 Ke Wang, Kai Ren, Yinlong Hou, Dan Yang, and Gang Zhang Phys. Rev. Applied 21, 054036 (2024) – Published 20 May 2024 Show Abstract Magnetism Mechanics Nanophysics PDFHTML Harnessing thermal waves for heat pumping Jose Ordonez-Miranda, Roman Anufriev, Masahiro Nomura, and Sebastian Volz Phys. Rev. Applied 21, 054037 (2024) – Published 20 May 2024 Show Abstract Energy Research Materials Science PDFHTML Reconfigurable manipulation of perovskite nanoparticles with a cusp-catastrophe Bessel beam Haixia Wu, Liu Tan, Hui Huang, Xiaofang Lu, Huanpeng Liang, Tao Lin, Bingsuo Zou, Peilong Hong, Yu-Xuan Ren, and Yi Liang Phys. Rev. Applied 21, 054038 (2024) – Published 20 May 2024 Show Abstract Mechanics Nanophysics Optics PDFHTML Editors' Suggestion Solution to the cocktail party problem: A time-reversal active metasurface for multipoint focusing Constant Bourdeloux, Mathias Fink, and Fabrice Lemoult Phys. Rev. Applied 21, 054039 (2024) – Published 21 May 2024 The cocktail party effect refers to the brain’s ability to focus on a single auditory stimulus amidst the cacophony of background noise. This selective attention also resonates in electromagnetic telecommunication, where the surge in wireless communication exacerbates signal interference. To address that issue, researchers have developed reconfigurable intelligent surfaces, mirrors that dynamically shape their reflectivity to enhance wireless performance. Drawing inspiration from these advancements, the authors propose to extend this concept to the acoustic domain, where similar issues of signal clarity and interference persist, but over a much wider frequency range. Show Abstract Acoustics Metamaterials PDFHTML Harnessing the superconducting diode effect through inhomogeneous magnetic fields Leonardo Rodrigues Cadorim, Edson Sardella, and Clécio C. de Souza Silva Phys. Rev. Applied 21, 054040 (2024) – Published 21 May 2024 Show Abstract Electronics Quantum Physics Superconductivity PDFHTML Direct readout of a nitrogen-vacancy hybrid-spin quantum register in diamond by analysis of photon arrival time Jingyan He, Yu Tian, Zhiyi Hu, Runchuan Ye, Xiangyu Wang, Dawei Lu, and Nanyang Xu Phys. Rev. Applied 21, 054041 (2024) – Published 21 May 2024 Show Abstract Magnetism Photonics Quantum Information PDFHTML Elongated quantum dot as a distributed charge sensor S. M. Patomäki, J. Williams, F. Berritta, C. Lainé, M. A. Fogarty, R. C. C. Leon, J. Jussot, S. Kubicek, A. Chatterjee, B. Govoreanu, F. Kuemmeth, J. J. L. Morton, and M. F. Gonzalez-Zalba Phys. Rev. Applied 21, 054042 (2024) – Published 22 May 2024 Show Abstract Optoelectronics Quantum Information Semiconductor Physics PDFHTML Ab initio model of carrier transport in diamond M. G. C. Alasio, M. Zhu, M. Matsubara, M. Goano, and E. Bellotti Phys. Rev. Applied 21, 054043 (2024) – Published 22 May 2024 Show Abstract Electronics Semiconductor Physics PDFHTML Annealing reduces Si 3 N 4 microwave-frequency dielectric loss in superconducting resonators S. Mittal, K. Adachi, N.E. Frattini, M.D. Urmey, S-X. Lin, A.L. Emser, C. Metzger, L.G. Talamo, S. Dickson, D. Carlson, S.B. Papp, C.A. Regal, and K.W. Lehnert Phys. Rev. Applied 21, 054044 (2024) – Published 22 May 2024 Show Abstract Optoelectronics Quantum Information Superconductivity PDFHTML Enhancing antiferromagnetic anisotropic magnetoresistance by substitutional doping Xiaojuan Yuan, Zhenhua Zhang, Rongxin Li, Qifeng Li, Hengguo Lai, Yanrong Song, Yong Liu, Zihan Xu, Zhihong Lu, Rui Xiong, and Wenbing Zhang Phys. Rev. Applied 21, 054045 (2024) – Published 22 May 2024 Show Abstract Magnetism Materials Science Spintronics PDFHTML Light shift mitigation in microcell-based coherent-population-trapping atomic clocks in the field of two circularly polarized light beams D.V. Brazhnikov, S.M. Ignatovich, and M.N. Skvortsov Phys. Rev. Applied 21, 054046 (2024) – Published 23 May 2024 Show Abstract Atomic and Molecular Physics Optics Quantum Physics PDFHTML Heralded initialization of charge state and optical-transition frequency of diamond tin-vacancy centers Julia M. Brevoord, Lorenzo De Santis, Takashi Yamamoto, Matteo Pasini, Nina Codreanu, Tim Turan, Hans K.C. Beukers, Christopher Waas, and Ronald Hanson Phys. Rev. Applied 21, 054047 (2024) – Published 23 May 2024 Show Abstract Optics Quantum Information Semiconductor Physics PDFHTML Acoustic Weyl semimetals in synthetic dimensions Lingzhi Zheng, Chengzhi Qin, Xue-Feng Zhu, Shuyue Chen, Lange Zhao, Zhuoxiong Liu, Weiwei Liu, Bing Wang, and Peixiang Lu Phys. Rev. Applied 21, 054048 (2024) – Published 23 May 2024 Show Abstract Acoustics Metamaterials PDFHTML Bidirectional state transfer between superconducting and microwave-photon qubits by single reflection Kazuki Koshino and Kunihiro Inomata Phys. Rev. Applied 21, 054049 (2024) – Published 23 May 2024 Show Abstract Optoelectronics Quantum Information Superconductivity PDFHTML Layer-dependent magnon-magnon coupling in a synthetic antiferromagnet Yaqi Rong, Chengxin Jiang, Huishan Wang, Lu Sun, Fengyu Liu, Juanjuan Lu, Tao Wu, Yu Zhang, Yunshan Zhao, Fusheng Ma, Zhiqiang Mu, Haomin Wang, and Yumeng Yang Phys. Rev. Applied 21, 054050 (2024) – Published 24 May 2024 Show Abstract Magnetism Materials Science Spintronics PDFHTML Anapole source based on electric dipole interactions over a low-index dielectric Muhammad Rizwan Akram and Abbas Semnani Phys. Rev. Applied 21, 054051 (2024) – Published 24 May 2024 Show Abstract Metamaterials Optoelectronics Photonics PDFHTML Modeling an efficient singlet-triplet-spin-qubit-to-photon interface assisted by a photonic crystal cavity Kui Wu, Sebastian Kindel, Thomas Descamps, Tobias Hangleiter, Jan Christoph Müller, Rebecca Rodrigo, Florian Merget, Beata E. Kardynal, Hendrik Bluhm, and Jeremy Witzens Phys. Rev. Applied 21, 054052 (2024) – Published 24 May 2024 Show Abstract Optoelectronics Quantum Information Semiconductor Physics PDFHTML Exploring the applications of Sc X I (X =  S , Se , Te ) monolayers for microelectronic nanodevices and photoelectric sensors Juncai Chen, Xiaozheng Fan, Jiajun Li, Chunlan Ma, Shijing Gong, Tianxing Wang, Xiao Dong, Guoliang Xu, and Yipeng An Phys. Rev. Applied 21, 054053 (2024) – Published 24 May 2024 Show Abstract Nanophysics Optoelectronics Semiconductor Physics PDFHTML Perfect splitting in rectangular-waveguide junctions for analog computing William Rogers, Christian Johnson-Richards, Alex Yakovlev, and Victor Pacheco-Peña Phys. Rev. Applied 21, 054054 (2024) – Published 28 May 2024 Show Abstract Computational Physics Optics Photonics PDFHTML Internal-multiport-model-based fast inverse design of an antireflective artificial metastructure in a waveguide system Junjie Shao, Ren Wang, Yu Wang, and Bing-Zhong Wang Phys. Rev. Applied 21, 054055 (2024) – Published 28 May 2024 Show Abstract Computational Physics Metamaterials Optics PDFHTML Quantum classifiers with a trainable kernel Li Xu, Xiao-yu Zhang, Ming Li, and Shu-qian Shen Phys. Rev. Applied 21, 054056 (2024) – Published 28 May 2024 Show Abstract Quantum Information PDFHTML Field-effect Josephson diode via asymmetric spin-momentum locking states Pei-Hao Fu, Yong Xu, Shengyuan A. Yang, Ching Hua Lee, Yee Sin Ang, and Jun-Feng Liu Phys. Rev. Applied 21, 054057 (2024) – Published 29 May 2024 Show Abstract Electronics Nanophysics Superconductivity PDFHTML Platform for designing bipartite entangled quantum frequency combs based on silicon nitride microring resonators Nianqin Li, Bo Ji, Yang Shen, and Guangqiang He Phys. Rev. Applied 21, 054058 (2024) – Published 29 May 2024 Show Abstract Photonics Quantum Information Semiconductor Physics PDFHTML Anisotropic Beer-Lambert law in 𝛽 - Ga 2 O 3 : Polarization-dependent absorption and photoresponsivity spectra Md. Mohsinur Rahman Adnan, Darpan Verma, Chris Sturm, Mathias Schubert, and Roberto C. Myers Phys. Rev. Applied 21, 054059 (2024) – Published 29 May 2024 Show Abstract Optoelectronics Semiconductor Physics PDFHTML Going beyond perfect absorption: Superdirective absorbers Yongming Li, Xikui Ma, Xuchen Wang, and Sergei Tretyakov Phys. Rev. Applied 21, 054060 (2024) – Published 29 May 2024 Show Abstract Metamaterials Photonics PDFHTML Superconducting isolators based on time-modulated coupled-resonator systems Yi Zhuang, Chandrashekhar Gaikwad, Daria Kowsari, Kater Murch, and Aravind Nagulu Phys. Rev. Applied 21, 054061 (2024) – Published 30 May 2024 Show Abstract Optoelectronics Quantum Information Superconductivity PDFHTML First-principles study of metal-semiconductor contacts and quantum transport simulations for 5.1-nm monolayer Mo Si 2 N 4 devices Zhanhai Li, Jianing Han, Shengguo Cao, Zhenhua Zhang, and Xiaoqing Deng Phys. Rev. Applied 21, 054062 (2024) – Published 30 May 2024 Show Abstract Electronics Nanophysics Semiconductor Physics PDFHTML Modular superconducting-qubit architecture with a multichip tunable coupler Mark Field, Angela Q. Chen, Ben Scharmann, Eyob A. Sete, Feyza Oruc, Kim Vu, Valentin Kosenko, Joshua Y. Mutus, Stefano Poletto, and Andrew Bestwick Phys. Rev. Applied 21, 054063 (2024) – Published 30 May 2024 Show Abstract Optoelectronics Quantum Information Superconductivity PDFHTML All-optical switching in Cr - and Mn -doped L 1 0 Fe Pt thin films Martin Stiehl, Stephan Wust, Nataliia Schmidt, Tobias Dannegger, Johannes Seyd, Marco Berritta, Peter M. Oppeneer, Manfred Albrecht, Ulrich Nowak, and Martin Aeschlimann Phys. Rev. Applied 21, 054064 (2024) – Published 30 May 2024 Show Abstract Magnetism Optoelectronics Spintronics PDFHTML Security analysis of continuous-variable quantum key distribution under limited eavesdropping with practical fiber Sheng Liu, Lu Fan, Zhengyu Li, Qiang Zhou, Yunbo Li, Dong Wang, Dechao Zhang, Yichen Zhang, and Han Li Phys. Rev. Applied 21, 054065 (2024) – Published 31 May 2024 Show Abstract Optics Quantum Information PDFHTML Insights into the breakdown mechanism of anodic oxide film Jiping Zhao, Yizhuo Li, Jie Zhu, Jingyi An, Xiangdong Ding, and Youlong Xu Phys. Rev. Applied 21, 054066 (2024) – Published 31 May 2024 Show Abstract Energy Research Materials Science Nanophysics PDFHTML Efficient site-resolved imaging and spin-state detection in dynamic two-dimensional ion crystals Robert N. Wolf, Joseph H. Pham, Julian Y. Z. Jee, Alexander Rischka, and Michael J. Biercuk Phys. Rev. Applied 21, 054067 (2024) – Published 31 May 2024 Show Abstract Atomic and Molecular Physics Optics Quantum Physics PDFHTML