Electric Field Analysis in a Cold-Ion Source Using Stark Spectroscopy of Rydberg Atoms Alisher Duspayev and Georg Raithel Phys. Rev. Applied 19, 044051 (2023) – Published 18 April 2023 Physics logo Synopsis: Sensing Electric Fields in Ion Sources Cold-atom-based ion sources (CABIS) are a timely example of how laser cooling and trapping can be used in practical applications, such as nanofabrication and microscopy. Unfortunately, Coulomb repulsion between ions can significantly deteriorate CABIS performance. The authors demonstrate that embedded Rydberg atoms can be used for noninvasive, near-real-time measurement of the electric fields between ions in CABIS, and thereby to control Coulomb-induced degradation via feedback. The spectra of different Rydberg states reveal which states are suitable for low- and high-field monitoring, and this work also sheds light on many-body interactions between ultracold ions and neutral atoms. Show Abstract Atomic and Molecular Physics Optics Plasma Physics PDFHTML Featured in Physics Porous-Solid Metaconverters for Broadband Underwater Sound Absorption and Insulation Hao-Wen Dong, Sheng-Dong Zhao, Ping Xiang, Bing Wang, Chuanzeng Zhang, Li Cheng, Yue-Sheng Wang, and Daining Fang Phys. Rev. Applied 19, 044074 (2023) – Published 25 April 2023 Physics logo Synopsis: Metamaterial Provides Underwater Stealth A lightweight structure made of rubber and metal layers can provide an object with underwater acoustic stealth over a broad frequency range. Show Abstract Acoustics Condensed Matter Physics Metamaterials PDFHTML Editors' Suggestion Chip-Scale Packages for a Tunable Wavelength Reference and Laser Cooling Platform S. Dyer, K. Gallacher, U. Hawley, A. Bregazzi, P.F. Griffin, A.S. Arnold, D.J. Paul, E. Riis, and J.P. McGilligan Phys. Rev. Applied 19, 044015 (2023) – Published 5 April 2023 The miniaturization of cold-atom systems brings high accuracy into portable atomic metrology. However, the impact of cold-atom sensors in real-world applications has been limited by the overall laser cooling package. This study amalgamates a chip-scale optics setup with a microfabricated laser cooling system to dramatically reduce device size, weight, and power usage. The authors use an on-chip Zeeman offset lock for laser cooling, and demonstrate improved atom number afforded by new techniques in silicon cell fabrication. The simplicity, scalability, and utility demonstrated in this cold-atom platform will enable exciting opportunities in portable cold-atom clocks and interferometers. Show Abstract Atomic and Molecular Physics Photonics Quantum Physics PDFHTML Editors' Suggestion Intrinsic and Extrinsic Factors Influencing the Dynamics of VO 2 Mott Oscillators Stephanie M. Bohaichuk, Suhas Kumar, Mahnaz Islam, Miguel Muñoz Rojo, R. Stanley Williams, Gregory Pitner, Jaewoo Jeong, Mahesh G. Samant, Stuart S.P. Parkin, and Eric Pop Phys. Rev. Applied 19, 044028 (2023) – Published 10 April 2023 Many biomimetic computing schemes rely on neuronlike spiking devices, but to design practical systems a deeper understanding of device dynamics is still needed. This study identifies major influences on oscillatory time scales of Mott-insulator-based nanoscale devices with carbon nanotube electrodes. In particular, the authors find that current sources and measurement instruments participate in the observed dynamics. The results highlight paths to control spiking behavior, using not only device thermodynamics and size, but also external circuitry. Show Abstract Electronics Nanophysics Nonlinear Dynamics PDFHTML Editors' Suggestion All-Optical Magnetothermoelastic Skyrmion Motion Serban Lepadatu Phys. Rev. Applied 19, 044036 (2023) – Published 12 April 2023 The author’s calculations show that magnetic skyrmions in metallic multilayers such as Co/Pt can be controllably moved on surfaces, simply by using a focused laser beam. Temperature gradients at the laser spot directly yield skyrmion motion, due to temperature dependence of magnetic parameters, but another contribution can be even more important: Thermoelastic lattice expansion results in a strain-induced local gradient in magnetic anisotropy. This method of skyrmion displacement allows full control of motion over a magnetic surface, with a possible path to MEMS-VCSEL on-chip integration. Show Abstract Magnetism Optoelectronics Spintronics PDFHTML Editors' Suggestion Ferrimagnetic Oscillator Magnetometer John F. Barry, Reed A. Irion, Matthew H. Steinecker, Daniel K. Freeman, Jessica J. Kedziora, Reginald G. Wilcox, and Danielle A. Braje Phys. Rev. Applied 19, 044044 (2023) – Published 17 April 2023 Quantum sensors based on solid-state spins have advanced rapidly over the prior decade, but deploying these sensors in real-world applications remains technically challenging. By introducing an innovative oscillator-based sensor architecture, and employing a ferrimagnetic material rather than the paramagnetic spin defects more commonly studied, this work details the construction of a compact magnetometer with a minimum sensitivity of 100 fT/√Hz. The sensor’s architecture offers advantages in dynamic range, simplicity, and compactness—qualities that may enable widespread use of solid-state quantum sensors outside a laboratory environment. Show Abstract Magnetism Optoelectronics Quantum Physics PDFHTML Editors' Suggestion Programmable Spatiotemporal Quantum Parametric Mode Sorter Malvika Garikapati, Santosh Kumar, He Zhang, Yong Meng Sua, and Yu-Ping Huang Phys. Rev. Applied 19, 044070 (2023) – Published 24 April 2023 Photons are ideal information carriers for sensing, communication, and computing. In principle, a single photon can carry much information in its spatiotemporal modes; the challenge is to read it out, as linear optical elements are not sensitive to the subtle differences among those modes. This study demonstrates a nonlinear-optical approach in which a single pass through a LiNiO 3 waveguide can separate photons according to their detailed spatiotemporal profiles or their superpositions, even if they completely overlap with each other. This provides access to photons’ large Hilbert spaces, pointing to applications in free-space quantum communication, computing, and sensing. Show Abstract Optics Quantum Information PDFHTML Editors' Suggestion Nonlinear Response and Crosstalk of Electrically Driven Silicon Spin Qubits Brennan Undseth, Xiao Xue, Mohammad Mehmandoost, Maximilian Rimbach-Russ, Pieter T. Eendebak, Nodar Samkharadze, Amir Sammak, Viatcheslav V. Dobrovitski, Giordano Scappucci, and Lieven M.K. Vandersypen Phys. Rev. Applied 19, 044078 (2023) – Published 25 April 2023 Frequency multiplexing of operations is an attractive strategy to control multiple qubits simultaneously in a spin-based quantum processor with relatively few control lines. However, high-fidelity operation demands good spectral addressability and noncontextual spin dynamics. The authors explore an unexpected crosstalk mechanism, in which the Rabi frequency of one spin changes markedly depending on the simultaneous operation of another. They also connect this behavior to another surprising feature: the nonlinear scaling of Rabi frequency with resonant driving amplitude. These results provide insight into the challenges that such state-of-the-art control methods will face. Show Abstract Optoelectronics Quantum Information Semiconductor Physics PDFHTML Editors' Suggestion Impedance-Matched Differential Superconducting Nanowire Detectors Marco Colangelo et al. Phys. Rev. Applied 19, 044093 (2023) – Published 28 April 2023 Superconducting nanowire single-photon detectors (SNSPDs) are the highest-performance photon-counting technology in the near infrared, but traditional designs typically trade off between timing resolution and detection efficiency. The authors utilize transmission-line engineering and differential readout to achieve a design with high detection efficiency and low jitter simultaneously. This design also enables imaging capabilities and photon-number resolution, and is compatible with commercial time taggers. The device is a versatile solution for photon counting in various applications, including quantum computing, quantum communication, biomedicine, and ranging. Show Abstract Nanophysics Optoelectronics Superconductivity PDFHTML Editors' Suggestion Letter Sound Waveguiding by Spinning: An Avenue toward Unidirectional Acoustic Spinning Fibers Mohamed Farhat, Pai-Yen Chen, and Ying Wu Phys. Rev. Applied 19, L041002 (2023) – Published 26 April 2023 Although optical fiber has revolutionized modern life, creating a corresponding fiber as a waveguide for airborne sound has proven difficult, due to the scarcity of high-index acoustic materials. In this study the authors utilize spinning of the air inside a metamaterial tube to create an acoustic fiber. Their simulations demonstrate nonreciprocal propagation resulting from the acoustic equivalent of the Zeeman effect, which leads to robust waveguiding in the proposed fiber. This contribution may open avenues for studying the physics of acoustic vortex beams and nonreciprocal phenomena. Show Abstract Acoustics Metamaterials PDFHTML LETTERS Letter Charge Dynamics in Spintronic Terahertz Emitters Georg Schmidt, Bikash Das-Mohapatra, and Evangelos Th. Papaioannou Phys. Rev. Applied 19, L041001 (2023) – Published 12 April 2023 An important issue for spintronic terahertz emitters is the analysis of spin-current generation and spin-to-charge conversion based on the emitted terahertz signal. This study shows that for such analysis it is mandatory to understand and account for local charging phenomena, which occur due to the limited area in which ultrafast currents are generated. Charge backflow strongly modifies the ensuing charge-current profile. This result is crucial for correctly interpreting the profile of the emitted terahertz pulse. Show Abstract Magnetism Optoelectronics Spintronics PDFHTML Editors' Suggestion Letter Sound Waveguiding by Spinning: An Avenue toward Unidirectional Acoustic Spinning Fibers Mohamed Farhat, Pai-Yen Chen, and Ying Wu Phys. Rev. Applied 19, L041002 (2023) – Published 26 April 2023 Although optical fiber has revolutionized modern life, creating a corresponding fiber as a waveguide for airborne sound has proven difficult, due to the scarcity of high-index acoustic materials. In this study the authors utilize spinning of the air inside a metamaterial tube to create an acoustic fiber. Their simulations demonstrate nonreciprocal propagation resulting from the acoustic equivalent of the Zeeman effect, which leads to robust waveguiding in the proposed fiber. This contribution may open avenues for studying the physics of acoustic vortex beams and nonreciprocal phenomena. Show Abstract Acoustics Metamaterials PDFHTML Letter Two-Photon Interference from a Quantum Emitter in Hexagonal Boron Nitride Clarisse Fournier, Sébastien Roux, Kenji Watanabe, Takashi Taniguchi, Stéphanie Buil, Julien Barjon, Jean-Pierre Hermier, and Aymeric Delteil Phys. Rev. Applied 19, L041003 (2023) – Published 27 April 2023 Indistinguishable single photons are a key requirement for most applications in optical quantum information. However, this feature has remained elusive among two-dimensional materials, primarily due to insufficient coherence of emitters. Here the authors controllably generate a spectrally narrow and stable single-photon source in an h-BN crystal by electron-beam irradiation, and demonstrate Hong-Ou-Mandel interference of the emitted photons, which is a signature of indistinguishability. These results enable practical applications in integrated quantum photonics based on two-dimensional materials. Show Abstract Photonics Quantum Information Semiconductor Physics PDFHTML ARTICLES Controlled-Controlled-Phase Gates for Superconducting Qubits Mediated by a Shared Tunable Coupler Niklas J. Glaser, Federico Roy, and Stefan Filipp Phys. Rev. Applied 19, 044001 (2023) – Published 3 April 2023 Show Abstract Optoelectronics Quantum Information Superconductivity PDFHTML Coherent-Phonon-Driven Hot-Carrier Effect in a Superlattice Solar Cell I. Makhfudz, N. Cavassilas, Y. Hajati, H. Esmaielpour, and F. Michelini Phys. Rev. Applied 19, 044002 (2023) – Published 3 April 2023 Show Abstract Energy Research Optoelectronics Semiconductor Physics PDFHTML Accurate Methods for the Analysis of Strong-Drive Effects in Parametric Gates Alexandru Petrescu, Camille Le Calonnec, Catherine Leroux, Agustin Di Paolo, Pranav Mundada, Sara Sussman, Andrei Vrajitoarea, Andrew A. Houck, and Alexandre Blais Phys. Rev. Applied 19, 044003 (2023) – Published 3 April 2023 Show Abstract Optoelectronics Quantum Information Superconductivity PDFHTML Minimizing the Ground Effect for Photophoretically Levitating Disks Zhipeng Lu, Miranda Stern, Jinqiao Li, David Candia, Lorenzo Yao-Bate, Thomas J. Celenza, Mohsen Azadi, Matthew F. Campbell, and Igor Bargatin Phys. Rev. Applied 19, 044004 (2023) – Published 3 April 2023 Show Abstract Fluid Dynamics Mechanics Optics PDFHTML Experimental Verification of and Physical Interpretation for Adsorption-Dependent Squeeze-Film Damping Yu-Jie Zhao, Gui-Lin Li, Li Liu, Cheng-Gang Shao, Ding-Yin Tan, Hang Yin, and Ze-Bing Zhou Phys. Rev. Applied 19, 044005 (2023) – Published 3 April 2023 Show Abstract Fluid Dynamics Gravitation Mechanics PDFHTML Shift Current in Molecular Crystals Possessing Charge-Transfer Characteristics Ali Ebrahimian, Mehrdad Dadsetani, and Reza Asgari Phys. Rev. Applied 19, 044006 (2023) – Published 4 April 2023 Show Abstract Condensed Matter Physics Energy Research Optoelectronics PDFHTML Rabi- and Blockade-Error-Resilient All-Geometric Rydberg Quantum Gates S.-L. Su, Li-Na Sun, B.-J. Liu, L.-L. Yan, M.-H. Yung, W. Li, and M. Feng Phys. Rev. Applied 19, 044007 (2023) – Published 4 April 2023 Show Abstract Atomic and Molecular Physics Optics Quantum Information PDFHTML Interacting Exciton-Polaritons in Cylindric Micropillars Yury S. Krivosenko, Ivan V. Iorsh, and Ivan A. Shelykh Phys. Rev. Applied 19, 044008 (2023) – Published 4 April 2023 Show Abstract Photonics Quantum Physics Semiconductor Physics PDFHTML Giant Anisotropy of Charge-to-Spin Conversion in Fe Films with Fourfold-Symmetric Anisotropy Fu Liu, Jinli Yao, Chenglong Jia, and Changjun Jiang Phys. Rev. Applied 19, 044009 (2023) – Published 4 April 2023 Show Abstract Magnetism Materials Science Spintronics PDFHTML Probing Low-Frequency Charge Noise in Few-Electron CMOS Quantum Dots Cameron Spence, Bruna Cardoso Paz, Vincent Michal, Emmanuel Chanrion, David J. Niegemann, Baptiste Jadot, Pierre-André Mortemousque, Bernhard Klemt, Vivien Thiney, Benoit Bertrand, Louis Hutin, Christopher Bäuerle, Maud Vinet, Yann-Michel Niquet, Tristan Meunier, and Matias Urdampilleta Phys. Rev. Applied 19, 044010 (2023) – Published 4 April 2023 Show Abstract Electronics Quantum Information Semiconductor Physics PDFHTML Stark Effect of Blue Quantum Emitters in Hexagonal Boron Nitride Ivan Zhigulin, Jake Horder, Viktor Ivády, Simon J.U. White, Angus Gale, Chi Li, Charlene J. Lobo, Milos Toth, Igor Aharonovich, and Mehran Kianinia Phys. Rev. Applied 19, 044011 (2023) – Published 5 April 2023 Show Abstract Optoelectronics Quantum Information Semiconductor Physics PDFHTML Low-Cost Plasmonic Platform for Photon-Emission Engineering of Two-Dimensional Semiconductors Anuj Kumar Singh, Kishor K. Mandal, Yashika Gupta, Abhay Anand V.S., Lekshmi Eswaramoorthy, Brijesh Kumar, Abhinav Kala, Saurabh Dixit, Venu Gopal Achanta, and Anshuman Kumar Phys. Rev. Applied 19, 044012 (2023) – Published 5 April 2023 Show Abstract Nanophysics Photonics Plasmonics PDFHTML Emergence of Sizeable Interfacial Dzyaloshinskii-Moriya Interaction at Cobalt/Fullerene Interface Esita Pandey, Brindaban Ojha, and Subhankar Bedanta Phys. Rev. Applied 19, 044013 (2023) – Published 5 April 2023 Show Abstract Magnetism Materials Science Spintronics PDFHTML Diffraction Phenomena in Time-Varying Metal-Based Metasurfaces Antonio Alex-Amor, Salvador Moreno-Rodríguez, Pablo Padilla, Juan F. Valenzuela-Valdés, and Carlos Molero Phys. Rev. Applied 19, 044014 (2023) – Published 5 April 2023 Show Abstract Metamaterials PDFHTML Editors' Suggestion Chip-Scale Packages for a Tunable Wavelength Reference and Laser Cooling Platform S. Dyer, K. Gallacher, U. Hawley, A. Bregazzi, P.F. Griffin, A.S. Arnold, D.J. Paul, E. Riis, and J.P. McGilligan Phys. Rev. Applied 19, 044015 (2023) – Published 5 April 2023 The miniaturization of cold-atom systems brings high accuracy into portable atomic metrology. However, the impact of cold-atom sensors in real-world applications has been limited by the overall laser cooling package. This study amalgamates a chip-scale optics setup with a microfabricated laser cooling system to dramatically reduce device size, weight, and power usage. The authors use an on-chip Zeeman offset lock for laser cooling, and demonstrate improved atom number afforded by new techniques in silicon cell fabrication. The simplicity, scalability, and utility demonstrated in this cold-atom platform will enable exciting opportunities in portable cold-atom clocks and interferometers. Show Abstract Atomic and Molecular Physics Photonics Quantum Physics PDFHTML Phase-Sensitive Open-Path Dual-Comb Spectroscopy with Free-Running Combs Xinyi Chen, Chao Huang, Jiarui Li, Minjian Lu, Yan Li, and Haoyun Wei Phys. Rev. Applied 19, 044016 (2023) – Published 6 April 2023 Show Abstract Optics PDFHTML Bipolar Thermoelectricity in Bilayer-Graphene–Superconductor Tunnel Junctions L. Bernazzani, G. Marchegiani, F. Giazotto, S. Roddaro, and A. Braggio Phys. Rev. Applied 19, 044017 (2023) – Published 6 April 2023 Show Abstract Energy Research Quantum Physics Superconductivity PDFHTML Depth-Resolved Measurements of the Meissner Screening Profile in Surface-Treated Nb Ryan M. L. McFadden, Md. Asaduzzaman, Thomas Prokscha, Zaher Salman, Andreas Suter, and Tobias Junginger Phys. Rev. Applied 19, 044018 (2023) – Published 6 April 2023 Show Abstract Materials Science Superconductivity PDFHTML Influence of Particle Geometry on Dispersion Forces Yifei Liu, Heping Xie, Cunbao Li, Dong-Sheng Jeng, and Bo Nan Zhang Phys. Rev. Applied 19, 044019 (2023) – Published 6 April 2023 Show Abstract Condensed Matter Physics Mechanics PDFHTML Laser-Driven Neutron Generation with Near-Critical Targets and Application to Materials Characterization F. Mirani, A. Maffini, and M. Passoni Phys. Rev. Applied 19, 044020 (2023) – Published 6 April 2023 Show Abstract Interdisciplinary Physics Nuclear Physics Plasma Physics PDFHTML Generation of Electromechanical Frequency Combs in Fluid Media with a Parametrically Driven Capacitive Microresonator Sushruta Surappa, Charles Wei, Molei Tao, and F. Levent Degertekin Phys. Rev. Applied 19, 044021 (2023) – Published 6 April 2023 Show Abstract Acoustics Mechanics PDFHTML Improved Finite-Key Security Analysis of Measurement-Device-Independent Quantum Key Distribution Against a Trojan-Horse Attack Hua-Jian Ding, Jing-Yang Liu, Xing-Yu Zhou, Chun-Hui Zhang, Jian Li, and Qin Wang Phys. Rev. Applied 19, 044022 (2023) – Published 7 April 2023 Show Abstract Quantum Information PDFHTML Rate-Adaptive Polar-Coding-Based Reconciliation for Continuous-Variable Quantum Key Distribution at Low Signal-to-Noise Ratio Zhengwen Cao, Xinlei Chen, Geng Chai, Kexin Liang, and Yang Yuan Phys. Rev. Applied 19, 044023 (2023) – Published 7 April 2023 Show Abstract Quantum Information PDFHTML Microwave-Assisted Thermoelectricity in S - I - S ′ Tunnel Junctions A. Hijano, F.S. Bergeret, F. Giazotto, and A. Braggio Phys. Rev. Applied 19, 044024 (2023) – Published 7 April 2023 Show Abstract Condensed Matter Physics Quantum Physics Superconductivity PDFHTML Fourier Single-Pixel Imaging Via Arbitrary Illumination Patterns Zhan-Dong Liu, Zong-Guo Li, Ya-Nan Zhao, Su-Heng Zhang, Zhi-Yuan Ye, De-Jian Zhang, Hong-Chao Liu, Jun Xiong, and Hong-Guo Li Phys. Rev. Applied 19, 044025 (2023) – Published 7 April 2023 Show Abstract Optics PDFHTML Coexistent Quantum Channel Characterization Using Spectrally Resolved Bayesian Quantum Process Tomography Joseph C. Chapman, Joseph M. Lukens, Muneer Alshowkan, Nageswara Rao, Brian T. Kirby, and Nicholas A. Peters Phys. Rev. Applied 19, 044026 (2023) – Published 10 April 2023 Show Abstract Quantum Information PDFHTML Molecular Dispersion Spectroscopy Using a Code-Division-Multiplexed Optical Carrier Justin Wong, Chathura P. Bandutunga, Priya Singh, Malcolm B. Gray, and Jong H. Chow Phys. Rev. Applied 19, 044027 (2023) – Published 10 April 2023 Show Abstract Optics Photonics PDFHTML Editors' Suggestion Intrinsic and Extrinsic Factors Influencing the Dynamics of VO 2 Mott Oscillators Stephanie M. Bohaichuk, Suhas Kumar, Mahnaz Islam, Miguel Muñoz Rojo, R. Stanley Williams, Gregory Pitner, Jaewoo Jeong, Mahesh G. Samant, Stuart S.P. Parkin, and Eric Pop Phys. Rev. Applied 19, 044028 (2023) – Published 10 April 2023 Many biomimetic computing schemes rely on neuronlike spiking devices, but to design practical systems a deeper understanding of device dynamics is still needed. This study identifies major influences on oscillatory time scales of Mott-insulator-based nanoscale devices with carbon nanotube electrodes. In particular, the authors find that current sources and measurement instruments participate in the observed dynamics. The results highlight paths to control spiking behavior, using not only device thermodynamics and size, but also external circuitry. Show Abstract Electronics Nanophysics Nonlinear Dynamics PDFHTML Robust Millisecond Coherence Times of Erbium Electron Spins Shobhit Gupta, Xuntao Wu, Haitao Zhang, Jun Yang, and Tian Zhong Phys. Rev. Applied 19, 044029 (2023) – Published 10 April 2023 Show Abstract Photonics Quantum Information PDFHTML Pattern-Distortion Technique: Using Liquid-Lens Magnification to Extract Volumes of Individual Droplets or Bubbles within Evaporating Two-Dimensional Arrays J.J. Kilbride, K.E. Fagg, F.F. Ouali, and D.J. Fairhurst Phys. Rev. Applied 19, 044030 (2023) – Published 11 April 2023 Show Abstract Fluid Dynamics Optics PDFHTML Single-Flux-Quantum-Activated Controlled- Z Gate for Transmon Qubits Y.F. Wang, W.P. Gao, K. Liu, B. Ji, Z. Wang, and Z.R. Lin Phys. Rev. Applied 19, 044031 (2023) – Published 11 April 2023 Show Abstract Optoelectronics Quantum Information Superconductivity PDFHTML Binary Volume Acoustic Holograms Michael D. Brown, Ben T. Cox, and Bradley E. Treeby Phys. Rev. Applied 19, 044032 (2023) – Published 11 April 2023 Show Abstract Acoustics Materials Science PDFHTML Synthesis of Modulated Dielectric Metasurfaces for Precise Antenna Beamforming Vasileios G. Ataloglou and George V. Eleftheriades Phys. Rev. Applied 19, 044033 (2023) – Published 11 April 2023 Show Abstract Metamaterials Optics PDFHTML Efficient Algorithms for High-Dimensional Quantum Optimal Control of a Transmon Qubit Zhaoqi Leng, Pranav Mundada, Saeed Ghadimi, and Andrew Houck Phys. Rev. Applied 19, 044034 (2023) – Published 12 April 2023 Show Abstract Optoelectronics Quantum Information Superconductivity PDFHTML Single-Layer Subwavelength Femtosecond-Laser-Induced Confined Nanocrystallization in Multistack Dielectrics Ruben Ricca and Yves Bellouard Phys. Rev. Applied 19, 044035 (2023) – Published 12 April 2023 Show Abstract Materials Science Nanophysics Optics PDFHTML Editors' Suggestion All-Optical Magnetothermoelastic Skyrmion Motion Serban Lepadatu Phys. Rev. Applied 19, 044036 (2023) – Published 12 April 2023 The author’s calculations show that magnetic skyrmions in metallic multilayers such as Co/Pt can be controllably moved on surfaces, simply by using a focused laser beam. Temperature gradients at the laser spot directly yield skyrmion motion, due to temperature dependence of magnetic parameters, but another contribution can be even more important: Thermoelastic lattice expansion results in a strain-induced local gradient in magnetic anisotropy. This method of skyrmion displacement allows full control of motion over a magnetic surface, with a possible path to MEMS-VCSEL on-chip integration. Show Abstract Magnetism Optoelectronics Spintronics PDFHTML Separation of Rare-Earth and Transition-Metal Contributions to the Interfacial Dzyaloshinskii-Moriya Interaction in Ferrimagnetic Co - Gd Alloys Zhiyuan Zhao, Dan Su, Tao Lin, Zhicheng Xie, Duo Zhao, Jianhua Zhao, Na Lei, and Dahai Wei Phys. Rev. Applied 19, 044037 (2023) – Published 13 April 2023 Show Abstract Magnetism Materials Science Spintronics PDFHTML Thermodynamic Performance of Hot-Carrier Solar Cells: A Quantum Transport Model Ludovico Tesser, Robert S. Whitney, and Janine Splettstoesser Phys. Rev. Applied 19, 044038 (2023) – Published 13 April 2023 Show Abstract Energy Research Optoelectronics Semiconductor Physics PDFHTML Gate-Based Spin Readout of Hole Quantum Dots with Site-Dependent g -Factors Angus Russell, Alexander Zotov, Ruichen Zhao, Andrew S. Dzurak, M. Fernando Gonzalez-Zalba, and Alessandro Rossi Phys. Rev. Applied 19, 044039 (2023) – Published 13 April 2023 Show Abstract Optoelectronics Quantum Information Semiconductor Physics PDFHTML Quantum Sensing of Thermoreflectivity in Electronics Hamza Ather, Haechan An, Hal Owens, Sami Alajlouni, Ali Shakouri, and Mahdi Hosseini Phys. Rev. Applied 19, 044040 (2023) – Published 13 April 2023 Show Abstract Electronics Optics Quantum Physics PDFHTML Quantum Algorithms for Estimating Quantum Entropies Youle Wang, Benchi Zhao, and Xin Wang Phys. Rev. Applied 19, 044041 (2023) – Published 14 April 2023 Show Abstract Quantum Information PDFHTML Fiber-Coupled Diamond Magnetometry with an Unshielded Sensitivity of 30 pT / √ Hz S.M. Graham, A.T.M.A. Rahman, L. Munn, R.L. Patel, A.J. Newman, C.J. Stephen, G. Colston, A. Nikitin, A.M. Edmonds, D.J. Twitchen, M.L. Markham, and G.W. Morley Phys. Rev. Applied 19, 044042 (2023) – Published 14 April 2023 Show Abstract Magnetism Medical Physics Quantum Information PDFHTML Electronic-Based Model of the Optical Nonlinearity of Low-Electron-Density Drude Materials Ieng-Wai Un, Subhajit Sarkar, and Yonatan Sivan Phys. Rev. Applied 19, 044043 (2023) – Published 17 April 2023 Show Abstract Materials Science Optoelectronics Photonics PDFHTML Editors' Suggestion Ferrimagnetic Oscillator Magnetometer John F. Barry, Reed A. Irion, Matthew H. Steinecker, Daniel K. Freeman, Jessica J. Kedziora, Reginald G. Wilcox, and Danielle A. Braje Phys. Rev. Applied 19, 044044 (2023) – Published 17 April 2023 Quantum sensors based on solid-state spins have advanced rapidly over the prior decade, but deploying these sensors in real-world applications remains technically challenging. By introducing an innovative oscillator-based sensor architecture, and employing a ferrimagnetic material rather than the paramagnetic spin defects more commonly studied, this work details the construction of a compact magnetometer with a minimum sensitivity of 100 fT/√Hz. The sensor’s architecture offers advantages in dynamic range, simplicity, and compactness—qualities that may enable widespread use of solid-state quantum sensors outside a laboratory environment. Show Abstract Magnetism Optoelectronics Quantum Physics PDFHTML Extraction of Mobility from Quantum Transport Calculations of Type-II Superlattices John Glennon, Francesco Bertazzi, Alberto Tibaldi, and Enrico Bellotti Phys. Rev. Applied 19, 044045 (2023) – Published 17 April 2023 Show Abstract Computational Physics Optoelectronics Semiconductor Physics PDFHTML Plasmon Thermal Conductance and Thermal Conductivity of Metallic Nanofilms Jose Ordonez-Miranda, Yuriy A. Kosevich, Bong Jae Lee, Masahiro Nomura, and Sebastian Volz Phys. Rev. Applied 19, 044046 (2023) – Published 17 April 2023 Show Abstract Energy Research Nanophysics Plasmonics PDFHTML Wavelength-Independent Performance of Femtosecond Laser Dielectric Ablation Spanning Over Three Octaves Mario Garcia-Lechuga, Olivier Utéza, Nicolas Sanner, and David Grojo Phys. Rev. Applied 19, 044047 (2023) – Published 18 April 2023 Show Abstract Materials Science Optics PDFHTML Tail-Wave-Assisted Positron Acceleration in Nonlinear Laser Plasma Wakefields Wei-Yuan Liu, Xing-Long Zhu, Min Chen, Su-Ming Weng, Feng He, Zheng-Ming Sheng, and Jie Zhang Phys. Rev. Applied 19, 044048 (2023) – Published 18 April 2023 Show Abstract Optics Particles and Fields Plasma Physics PDFHTML Rydberg-State Engineering: Investigations of Tuning Schemes for Continuous Frequency Sensing Samuel Berweger, Nikunjkumar Prajapati, Alexandra B. Artusio-Glimpse, Andrew P. Rotunno, Roger Brown, Christopher L. Holloway, Matthew T. Simons, Eric Imhof, Steven R. Jefferts, Baran N. Kayim, Michael A. Viray, Robert Wyllie, Brian C. Sawyer, and Thad G. Walker Phys. Rev. Applied 19, 044049 (2023) – Published 18 April 2023 Show Abstract Atomic and Molecular Physics Optics PDFHTML Topological Transitions Enhance the Performance of Twisted Thermophotovoltaic Systems Rongqian Wang, Jincheng Lu, Xiaohu Wu, Jiebin Peng, and Jian-Hua Jiang Phys. Rev. Applied 19, 044050 (2023) – Published 18 April 2023 Show Abstract Energy Research Optoelectronics Topological Insulators PDFHTML Featured in Physics Editors' Suggestion Electric Field Analysis in a Cold-Ion Source Using Stark Spectroscopy of Rydberg Atoms Alisher Duspayev and Georg Raithel Phys. Rev. Applied 19, 044051 (2023) – Published 18 April 2023 Physics logo Synopsis: Sensing Electric Fields in Ion Sources Cold-atom-based ion sources (CABIS) are a timely example of how laser cooling and trapping can be used in practical applications, such as nanofabrication and microscopy. Unfortunately, Coulomb repulsion between ions can significantly deteriorate CABIS performance. The authors demonstrate that embedded Rydberg atoms can be used for noninvasive, near-real-time measurement of the electric fields between ions in CABIS, and thereby to control Coulomb-induced degradation via feedback. The spectra of different Rydberg states reveal which states are suitable for low- and high-field monitoring, and this work also sheds light on many-body interactions between ultracold ions and neutral atoms. Show Abstract Atomic and Molecular Physics Optics Plasma Physics PDFHTML Strain-Induced Medium-Temperature Thermoelectric Performance of Cu 4 Ti Se 4 : The Role of Four-Phonon Scattering Xue-Kun Chen, En-Ming Zhang, Dan Wu, and Ke-Qiu Chen Phys. Rev. Applied 19, 044052 (2023) – Published 19 April 2023 Show Abstract Condensed Matter Physics Energy Research Semiconductor Physics PDFHTML Full Tunability and Quantum Coherent Dynamics of a Driven Multilevel System Yuan Zhou, Sisi Gu, Ke Wang, Gang Cao, Xuedong Hu, Ming Gong, Hai-Ou Li, and Guo-Ping Guo Phys. Rev. Applied 19, 044053 (2023) – Published 19 April 2023 Show Abstract Optoelectronics Quantum Information Semiconductor Physics PDFHTML Designing a Transition Photonic Band with a Moiré Synthetic Sphere Z.N. Liu, X.Q. Zhao, J. Yao, C. Zhang, J.L. Xu, S Zhu, and H. Liu Phys. Rev. Applied 19, 044054 (2023) – Published 19 April 2023 Show Abstract Photonics Topological Insulators PDFHTML Acoustic Multiplexing Based on Higher-Order Topological Insulators with Combined Valley and Layer Degrees of Freedom Le Liu, Jin-Guo Hua, Xiujuan Zhang, Ming-Hui Lu, and Yan-Feng Chen Phys. Rev. Applied 19, 044055 (2023) – Published 19 April 2023 Show Abstract Acoustics Metamaterials Topological Insulators PDFHTML High-Gain Traveling-Wave Parametric Amplifier Based on Three-Wave Mixing Hampus Renberg Nilsson, Anita Fadavi Roudsari, Daryoush Shiri, Per Delsing, and Vitaly Shumeiko Phys. Rev. Applied 19, 044056 (2023) – Published 19 April 2023 Show Abstract Optics Quantum Information Superconductivity PDFHTML Imaging-Based Quantum Tomography of Orbital-Angular-Momentum-Multiplexed Continuous-Variable Entangled States Xiaolong Dong, Dongyu Liu, Mingsheng Tian, Yi Li, Shuheng Liu, Qiongyi He, Haitan Xu, and Zheng Li Phys. Rev. Applied 19, 044057 (2023) – Published 20 April 2023 Show Abstract Optics Photonics Quantum Physics PDFHTML Achieving Complete Band Gaps of Water Waves with Shallow-Draft Cylinder Arrays Jinyao Zeng, Xinyu Zhao, Xiaodong Sun, and Xinhua Hu Phys. Rev. Applied 19, 044058 (2023) – Published 20 April 2023 Show Abstract Acoustics Fluid Dynamics Metamaterials PDFHTML Nonlinear Optical Imaging of Carrier Transport at the Semiconductor-Insulator Interface in Organic Field-Effect Transistors Payal Bhattacharya, Ping Yu, and Suchismita Guha Phys. Rev. Applied 19, 044059 (2023) – Published 20 April 2023 Show Abstract Optoelectronics Semiconductor Physics Soft Matter PDFHTML Reconfigurable Elastic Metamaterials: Engineering Dispersion with Beyond Nearest Neighbors G.J. Chaplain, I.R. Hooper, A.P. Hibbins, and T.A. Starkey Phys. Rev. Applied 19, 044061 (2023) – Published 21 April 2023 Show Abstract Acoustics Mechanics Metamaterials PDFHTML Sensitive and Stable Atomic Vector Magnetometer to Detect Weak Fields Using Two Orthogonal Multipass Cavities S.-Q. Liu, Q.-Q. Yu, H. Zhou, and D. Sheng Phys. Rev. Applied 19, 044062 (2023) – Published 21 April 2023 Show Abstract Atomic and Molecular Physics Optics PDFHTML Spoof-Surface-Plasmon-Polariton Metawaveguide and its Application in Frequency-Shift Keying Yi Fan, Pei Hang He, Ling Yun Niu, Yang Zhao, Hao Chi Zhang, and Tie Jun Cui Phys. Rev. Applied 19, 044063 (2023) – Published 21 April 2023 Show Abstract Metamaterials Optoelectronics Plasmonics PDFHTML Multiple Rotational Doppler Effect Induced by a Single Spinning Meta-Atom Jun Luo, Yuhui Wang, Mingbo Pu, Fei Zhang, Mingfeng Xu, Xiaoliang Ma, Xiong Li, Cheng Huang, Zuojun Zhang, Lianwei Chen, and Xiangang Luo Phys. Rev. Applied 19, 044064 (2023) – Published 21 April 2023 Show Abstract Metamaterials Photonics PDFHTML Selective and Efficient Quantum Process Tomography for Non-Trace-Preserving Maps: Implementation with a Superconducting Quantum Processor Q. Pears Stefano, I. Perito, and L. Rebón Phys. Rev. Applied 19, 044065 (2023) – Published 21 April 2023 Show Abstract Optics Quantum Information Superconductivity PDFHTML Toward a Laser-Driven Traveling-Wave Linac on a Chip Weihao Liu, Liwen Zhang, Yucheng Liu, Qika Jia, Baogen Sun, and Hongliang Xu Phys. Rev. Applied 19, 044066 (2023) – Published 21 April 2023 Show Abstract Nanophysics Particles and Fields Photonics PDFHTML Compact Superconducting Microwave Resonators Based on Al-AlO x -Al Capacitors Julia Zotova, Rui Wang, Alexander Semenov, Yu Zhou, Ivan Khrapach, Akiyoshi Tomonaga, Oleg Astafiev, and Jaw-Shen Tsai Phys. Rev. Applied 19, 044067 (2023) – Published 24 April 2023 Show Abstract Materials Science Quantum Information Superconductivity PDFHTML Ultimate Quantum Sensitivity in the Estimation of the Delay between two Interfering Photons through Frequency-Resolving Sampling Danilo Triggiani, Giorgos Psaroudis, and Vincenzo Tamma Phys. Rev. Applied 19, 044068 (2023) – Published 24 April 2023 Show Abstract Optics Quantum Physics PDFHTML Generating a Superoscillation Three-Dimensional Hollow Spot by Polarization Manipulation Jinlong Wang, Fengliang Dong, Kun Zhang, Yi Zhou, Zhiwei Song, Haifeng Hu, Lihua Xu, Hai Jiang, Gaofeng Liang, Zhihai Zhang, Zhong-quan Wen, Yufei Liu, Zhengguo Shang, Luru Dai, Weiguo Chu, and Gang Chen Phys. Rev. Applied 19, 044069 (2023) – Published 24 April 2023 Show Abstract Metamaterials Optics PDFHTML Editors' Suggestion Programmable Spatiotemporal Quantum Parametric Mode Sorter Malvika Garikapati, Santosh Kumar, He Zhang, Yong Meng Sua, and Yu-Ping Huang Phys. Rev. Applied 19, 044070 (2023) – Published 24 April 2023 Photons are ideal information carriers for sensing, communication, and computing. In principle, a single photon can carry much information in its spatiotemporal modes; the challenge is to read it out, as linear optical elements are not sensitive to the subtle differences among those modes. This study demonstrates a nonlinear-optical approach in which a single pass through a LiNiO 3 waveguide can separate photons according to their detailed spatiotemporal profiles or their superpositions, even if they completely overlap with each other. This provides access to photons’ large Hilbert spaces, pointing to applications in free-space quantum communication, computing, and sensing. Show Abstract Optics Quantum Information PDFHTML Nontrivial Topological Features and Griffith’s-Phase Behavior in CrFeVGa Probed by Experiment and Theory Jadupati Nag, P.C. Sreeparvathy, R. Venkatesh, P.D. Babu, K.G. Suresh, and Aftab Alam Phys. Rev. Applied 19, 044071 (2023) – Published 24 April 2023 Show Abstract Materials Science Spintronics Topological Insulators PDFHTML High-Dimensional Photonic Orbital-Angular-Momentum Frequency Interface Xiaodong Qiu, Haoxu Guo, Yuan Ren, and Lixiang Chen Phys. Rev. Applied 19, 044072 (2023) – Published 24 April 2023 Show Abstract Optics Quantum Information PDFHTML Probing Confined Vortices with a Superconducting Nanobridge M. Foltyn, K. Norowski, M.J. Wyszyński, A.S. de Arruda, M.V. Milošević, and M. Zgirski Phys. Rev. Applied 19, 044073 (2023) – Published 24 April 2023 Show Abstract Electronics Nanophysics Superconductivity PDFHTML Featured in Physics Porous-Solid Metaconverters for Broadband Underwater Sound Absorption and Insulation Hao-Wen Dong, Sheng-Dong Zhao, Ping Xiang, Bing Wang, Chuanzeng Zhang, Li Cheng, Yue-Sheng Wang, and Daining Fang Phys. Rev. Applied 19, 044074 (2023) – Published 25 April 2023 Physics logo Synopsis: Metamaterial Provides Underwater Stealth A lightweight structure made of rubber and metal layers can provide an object with underwater acoustic stealth over a broad frequency range. Show Abstract Acoustics Condensed Matter Physics Metamaterials PDFHTML Generation of Tightly Focused Cylindrical Vector Beams with Dual-Channel Transmissive Metasurfaces Jialin Feng, Hongyu Shi, Dr., Jianjia Yi, Anxue Zhang, Shah Nawaz Burokur, Juan Chen, Xiaoming Chen, and Zhuo Xu Phys. Rev. Applied 19, 044075 (2023) – Published 25 April 2023 Show Abstract Metamaterials Optoelectronics PDFHTML Experimental Implementation of Short-Path Nonadiabatic Geometric Gates in a Superconducting Circuit Xin-Xin Yang, Liang-Liang Guo, Hai-Feng Zhang, Lei Du, Chi Zhang, Hao-Ran Tao, Yong Chen, Peng Duan, Zhi-Long Jia, Wei-Cheng Kong, and Guo-Ping Guo Phys. Rev. Applied 19, 044076 (2023) – Published 25 April 2023 Show Abstract Optoelectronics Quantum Information Superconductivity PDFHTML Light-Induced Decoupling of Electronic and Magnetic Properties in Manganites H. Navarro, Ali C. Basaran, F. Ajejas, L. Fratino, S. Bag, T.D. Wang, E. Qiu, V. Rouco, I. Tenreiro, F. Torres, A. Rivera-Calzada, J. Santamaria, M. Rozenberg, and Ivan K. Schuller Phys. Rev. Applied 19, 044077 (2023) – Published 25 April 2023 Show Abstract Magnetism Optoelectronics Strongly Correlated Materials PDFHTML Editors' Suggestion Nonlinear Response and Crosstalk of Electrically Driven Silicon Spin Qubits Brennan Undseth, Xiao Xue, Mohammad Mehmandoost, Maximilian Rimbach-Russ, Pieter T. Eendebak, Nodar Samkharadze, Amir Sammak, Viatcheslav V. Dobrovitski, Giordano Scappucci, and Lieven M.K. Vandersypen Phys. Rev. Applied 19, 044078 (2023) – Published 25 April 2023 Frequency multiplexing of operations is an attractive strategy to control multiple qubits simultaneously in a spin-based quantum processor with relatively few control lines. However, high-fidelity operation demands good spectral addressability and noncontextual spin dynamics. The authors explore an unexpected crosstalk mechanism, in which the Rabi frequency of one spin changes markedly depending on the simultaneous operation of another. They also connect this behavior to another surprising feature: the nonlinear scaling of Rabi frequency with resonant driving amplitude. These results provide insight into the challenges that such state-of-the-art control methods will face. Show Abstract Optoelectronics Quantum Information Semiconductor Physics PDFHTML High-Sensitivity Rydberg-Atom-Based Phase-Modulation Receiver for Frequency-Division-Multiplexing Communication Yafen Cai, Shuai Shi, Yijia Zhou, Yitong Li, Jianhao Yu, Weibin Li, and Lin Li Phys. Rev. Applied 19, 044079 (2023) – Published 25 April 2023 Show Abstract Atomic and Molecular Physics Optoelectronics Quantum Physics PDFHTML Spin-Current-Driven Permeability Variation for Time-Varying Magnetic Metamaterials Toshiyuki Kodama, Nobuaki Kikuchi, Satoshi Okamoto, Seigo Ohno, and Satoshi Tomita Phys. Rev. Applied 19, 044080 (2023) – Published 26 April 2023 Show Abstract Metamaterials Photonics Spintronics PDFHTML Single-Wall-Carbon-Nanotube– VSe 2 Nanohybrid for Ultrafast Visible-To-Near-Infrared Third-Order Nonlinear Optical Limiters Vinod Kumar, Dipendranath Mandal, K. A. Sree Raj, Brahmananda Chakraborty, Amit Agarwal, Chandra S. Rout, and K.V. Adarsh Phys. Rev. Applied 19, 044081 (2023) – Published 26 April 2023 Show Abstract Nanophysics Optics Semiconductor Physics PDFHTML Giant Electroviscous Effects in a Ferroelectric Nematic Liquid Crystal M. Praveen Kumar, Jakub Karcz, Przemyslaw Kula, Smarajit Karmakar, and Surajit Dhara Phys. Rev. Applied 19, 044082 (2023) – Published 26 April 2023 Show Abstract Mechanics Physical Chemistry Soft Matter PDFHTML Highly Efficient Photoelectrochemical Water Oxidation Using Cs 2 Ag M Cl 6 ( M = In , Bi , Sb ) Halide Double Perovskites Poonam Sikarwar, Indraja Thrivikram Koneri, Tamilselvan Appadurai, and Aravind Kumar Chandiran Phys. Rev. Applied 19, 044083 (2023) – Published 26 April 2023 Show Abstract Chemical Physics Energy Research Semiconductor Physics PDFHTML Effect of Oxygen Exchange between Two Oxide Layers of a Memristive Bilayer Valence-Change Memory Cell on the Switching Polarity Nils Sommer, Regina Dittmann, and Stephan Menzel Phys. Rev. Applied 19, 044084 (2023) – Published 26 April 2023 Show Abstract Electronics Semiconductor Physics PDFHTML Stacking up Electron-Rich and Electron-Deficient Monolayers to Achieve Extraordinary Mid- to Far-Infrared Excitonic Absorption: Interlayer Excitons in the C 3 B / C 3 N Bilayer Zhao Tang, Greis J. Cruz, Fanhao Jia, Yabei Wu, Weiyi Xia, and Peihong Zhang Phys. Rev. Applied 19, 044085 (2023) – Published 27 April 2023 Show Abstract Nanophysics Optoelectronics Semiconductor Physics PDFHTML Magnetometry Based on Silicon-Vacancy Centers in Isotopically Purified 4 H - SiC I. Lekavicius, S.G. Carter, D.J. Pennachio, S. White, J.R. Hazjus, A.P. Purdy, D.K. Gaskill, A.L. Yeats, and R.L. Myers-Ward Phys. Rev. Applied 19, 044086 (2023) – Published 27 April 2023 Show Abstract Magnetism Quantum Physics Semiconductor Physics PDFHTML Controlling Selection Rules for Magnon Scattering in Nanomagnets by Spatial Symmetry Breaking Arezoo Etesamirad, Julia Kharlan, Rodolfo Rodriguez, Igor Barsukov, and Roman Verba Phys. Rev. Applied 19, 044087 (2023) – Published 27 April 2023 Show Abstract Magnetism Nanophysics Spintronics PDFHTML Suppression of Back-Tunneling Events in Hybrid Single-Electron Turnstiles by Source-Drain Bias Modulation Marco Marín-Suárez, Yuri A. Pashkin, Joonas T. Peltonen, and Jukka P. Pekola Phys. Rev. Applied 19, 044088 (2023) – Published 27 April 2023 Show Abstract Electronics Nanophysics Quantum Physics PDFHTML Pressure Sensor Using a Hybrid Structure of a Magnetostrictive Layer and Nitrogen-Vacancy Centers in Diamond Ryota Kitagawa, Shunsuke Nagata, Keigo Arai, Kosuke Mizuno, Takeyuki Tsuji, Ikuya Fujisaki, Soki Urashita, Teruo Kohashi, Yota Takamura, Takayuki Iwasaki, Shigeki Nakagawa, and Mutsuko Hatano Phys. Rev. Applied 19, 044089 (2023) – Published 27 April 2023 Show Abstract Magnetism Mechanics Quantum Physics PDFHTML Optimizing Optical Potentials With Physics-Inspired Learning Algorithms M. Calzavara, Y. Kuriatnikov, A. Deutschmann-Olek, F. Motzoi, S. Erne, A. Kugi, T. Calarco, J. Schmiedmayer, and M. Prüfer Phys. Rev. Applied 19, 044090 (2023) – Published 28 April 2023 Show Abstract Atomic and Molecular Physics Optics Quantum Physics PDFHTML Spectroscopic Study of N- V Sensors in Diamond-Based High-Pressure Devices Kin On Ho, Man Yin Leung, Wenyan Wang, Jianyu Xie, King Yau Yip, Jiahao Wu, Swee K. Goh, Andrej Denisenko, Jörg Wrachtrup, and Sen Yang Phys. Rev. Applied 19, 044091 (2023) – Published 28 April 2023 Show Abstract Mechanics Optics Quantum Physics PDFHTML Optimization of Nuclear Polarization in an Alkali-Noble Gas Comagnetometer Emmanuel Klinger, Tianhao Liu, Mikhail Padniuk, Martin Engler, Thomas Kornack, Szymon Pustelny, Derek F. Jackson Kimball, Dmitry Budker, and Arne Wickenbrock Phys. Rev. Applied 19, 044092 (2023) – Published 28 April 2023 Show Abstract Atomic and Molecular Physics Magnetism Optics PDFHTML Editors' Suggestion Impedance-Matched Differential Superconducting Nanowire Detectors Marco Colangelo et al. Phys. Rev. Applied 19, 044093 (2023) – Published 28 April 2023 Superconducting nanowire single-photon detectors (SNSPDs) are the highest-performance photon-counting technology in the near infrared, but traditional designs typically trade off between timing resolution and detection efficiency. The authors utilize transmission-line engineering and differential readout to achieve a design with high detection efficiency and low jitter simultaneously. This design also enables imaging capabilities and photon-number resolution, and is compatible with commercial time taggers. The device is a versatile solution for photon counting in various applications, including quantum computing, quantum communication, biomedicine, and ranging. Show Abstract Nanophysics Optoelectronics Superconductivity PDFHTML Designing Globally Time-Optimal Entangling Gates Using Geometric Space Curves Ho Lun Tang, Kyle Connelly, Ada Warren, Fei Zhuang, Sophia E. Economou, and Edwin Barnes Phys. Rev. Applied 19, 044094 (2023) – Published 28 April 2023 Show Abstract Optoelectronics Quantum Information Semiconductor Physics PDFHTML Semiconductor Membranes for Electrostatic Exciton Trapping in Optically Addressable Quantum Transport Devices Thomas Descamps, Feng Liu, Sebastian Kindel, René Otten, Tobias Hangleiter, Chao Zhao, Mihail Ion Lepsa, Julian Ritzmann, Arne Ludwig, Andreas D. Wieck, Beata E. Kardynał, and Hendrik Bluhm Phys. Rev. Applied 19, 044095 (2023) – Published 28 April 2023 Show Abstract Nanophysics Optoelectronics Semiconductor Physics PDFHTML