Physical Review Applied - June 2023

Physical Review Applied View Email Online   Volume 19, Issue 6 June 2023   View Issue   Advertisement Physical Review Applied achieves a 4.6 Journal Impact Factor Score According to the 2022 Journal Citation Reports (Clarivate Analytics, 2022), Physical Review Applied achieved a 4.6 Journal Impact Factor Score.     Advertisement Abstracts Open for DFD, DPP Abstracts are now being accepted for the DFD and DPP annual meetings. More information »     Not an APS member? Join today to start connecting with a community of more than 50,000 physicists.   HIGHLIGHTED ARTICLES Featured in Physics Editors' Suggestion Blueprint for a Molecular-Spin Quantum Processor A. Chiesa, S. Roca, S. Chicco, M.C. de Ory, A. Gómez-León, A. Gomez, D. Zueco, F. Luis, and S. Carretta Phys. Rev. Applied 19, 064060 (2023) – Published 21 June 2023 Synopsis:Design for a Molecule-Based Quantum Processor The physical implementation of any quantum computer still faces important issues related to scalability and error correction. This study sets up the blueprint for a quantum processor based on molecular spins coupled to superconducting resonators, which control different qudits, read out their final states, and establish coherent communication channels between them. The feasibility of this route is demonstrated by an accurate design of the resonator to reach the strong-coupling regime between a single photon and a single molecule. Very good results for proof-of-principle quantum algorithms and quantum simulations are obtained by numerical simulations of a realistic experimental scenario.     Editors' Suggestion Magnon Bundle in a Strongly Dissipative Magnet H.Y. Yuan, Jikun Xie, and Rembert A. Duine Phys. Rev. Applied 19, 064070 (2023) – Published 26 June 2023 The rise of quantum information science based on hybrid quantum systems bridges different areas of research and provides innovative perspectives on quantum technology. Magnons show great potential as information carriers, but generating robust quantum states of magnons in a scalable hybrid system remains an outstanding challenge. Here the authors consider a superconducting qubit coupled to magnets by the dipole interaction. With delicate frequency detuning between magnet and qubit, an exotic quantum state of magnons is found. Interestingly, magnetic dissipation helps to stabilize the quantum states, which readily involves a wide class of magnetic materials in quantum information.     Editors' Suggestion Pure-State Photon-Pair Source with a Long Coherence Time for Large-Scale Quantum Information Processing Bo Li, Yu-Huai Li, Yuan Cao, Juan Yin, and Cheng-Zhi Peng Phys. Rev. Applied 19, 064083 (2023) – Published 29 June 2023 This study presents an experimental technique to tackle technical obstacles in generating photon pairs in pure states with extended coherence times. Such photon sources are vital for large-scale quantum information processing. The authors successfully eliminate the frequency correlation of parametric photons using optimal filtering, which enables high-quality Hong-Ou-Mandel interference between two photon sources. This breakthrough has promising practical applications in quantum science and can facilitate engineering solutions for long-distance quantum interference.     Editors' Suggestion Letter Topological Transformation with Emerging Zero Modes in Multistable Metamaterials for Reprogrammable Flexural Stiffness Lei Wu and Damiano Pasini Phys. Rev. Applied 19, L061001 (2023) – Published 22 June 2023 In situ tuning of elastic stiffness enriches the range of functionalities of mechanical metamaterials for next-generation multifunctional devices. While stiffness tunability has been demonstrated under compression and tension, tuning flexural stiffness in multistable materials is now addressed in this work. Researchers leverage a multistable topological transformation induced by internal contact to activate zero-energy modes that yield both stiff and soft flexural modes. This remarkable tunability of flexural stiffness endows the architecture with a reversible rigid-flexible switch, which could support diverse applications from soft robotics to medical devices.     LETTERS Editors' Suggestion Letter Topological Transformation with Emerging Zero Modes in Multistable Metamaterials for Reprogrammable Flexural Stiffness Lei Wu and Damiano Pasini Phys. Rev. Applied 19, L061001 (2023) – Published 22 June 2023 In situ tuning of elastic stiffness enriches the range of functionalities of mechanical metamaterials for next-generation multifunctional devices. While stiffness tunability has been demonstrated under compression and tension, tuning flexural stiffness in multistable materials is now addressed in this work. Researchers leverage a multistable topological transformation induced by internal contact to activate zero-energy modes that yield both stiff and soft flexural modes. This remarkable tunability of flexural stiffness endows the architecture with a reversible rigid-flexible switch, which could support diverse applications from soft robotics to medical devices.     Letter Observation of Robust Zero-Energy Extended States Jannatul Ferdous, Cem Yuce, Andrea Alù, and Hamidreza Ramezani Phys. Rev. Applied 19, L061002 (2023) – Published 23 June 2023 Localized topological midgap states are important for their robustness against disorder, but their natural localization limits their application. In this Letter the authors use an acoustic system to experimentally verify the existence of bulk states that belong to the band and, despite being extended, are robust against Hermitian and non-Hermitian disorders. The robustness of these bulk states cannot be expressed using the usual bulk-boundary correspondence. These results lift the limitation on localized topological states and can be used to develop robust acoustic devices based on far-field waves, including far-field imaging.     Letter Independent Operation of Two Waveguide-Integrated Quantum Emitters C. Papon, Y. Wang, R. Uppu, S. Scholz, A.D. Wieck, A. Ludwig, P. Lodahl, and L. Midolo Phys. Rev. Applied 19, L061003 (2023) – Published 27 June 2023 Scaling up single-photon sources directly on a chip is a fundamental requirement for realizing quantum information protocols that demand scalable, integrated photonic qubits. Integrating multiple quantum emitters in a circuit has encountered major roadblocks in wavelength disparity and the lack of a compact excitation method. The authors demonstrate simultaneous excitation of two quantum dots in the same circuit and independent control of the emitters' wavelengths, enabling two-photon quantum interference. Spectral diffusion is not as detrimental to the interference process as anticipated. These results address a longstanding challenge in quantum photonics.     ARTICLES Hybrid Quantum-Classical Algorithms for Loan-Collection Optimization with Loan-Loss Provisions Jirawat Tangpanitanon, Jirawat Saiphet, Pantita Palittapongarnpim, Poompong Chaiwongkhot, Pinn Prugsanapan, Nuntanut Raksasri, Wipada Wannasiwaporn, Yarnvith Raksri, Pairash Thajchayapong, and Thiparat Chotibut Phys. Rev. Applied 19, 064001 (2023) – Published 1 June 2023   Controllable Transmission Switch Based on Asymmetric Coupled Nonlinear Resonances Hady Moussa, Michele Cotrufo, and Andrea Alù Phys. Rev. Applied 19, 064002 (2023) – Published 1 June 2023   Side-Channel-Secure Quantum Key Distribution with Imperfect Vacuum Sources Cong Jiang, Zong-Wen Yu, Xiao-Long Hu, and Xiang-Bin Wang Phys. Rev. Applied 19, 064003 (2023) – Published 1 June 2023   Toward a Transportable Ca+ Optical Clock with a Systematic Uncertainty of 4.8 × 10−18 Mengyan Zeng, Yao Huang, Baolin Zhang, Yanmei Hao, Zixiao Ma, Ruming Hu, Huaqing Zhang, Zheng Chen, Miao Wang, Hua Guan, and Kelin Gao Phys. Rev. Applied 19, 064004 (2023) – Published 1 June 2023   Perpendicular Magnetic Anisotropy of an Ultrathin Fe Layer Grown on NiO(001) Soki Kobayashi, Hiroki Koizumi, Hideto Yanagihara, Jun Okabayashi, Takahiro Kondo, Takahide Kubota, Koki Takanashi, and Yoshiaki Sonobe Phys. Rev. Applied 19, 064005 (2023) – Published 1 June 2023   Quadrature-Averaged Homodyne Detection for Estimating Cavity Parameters Giada R. La Gala, Arvind Shankar Kumar, Rick Leijssen, Ewold Verhagen, and Juha T. Muhonen Phys. Rev. Applied 19, 064006 (2023) – Published 2 June 2023   Cavity-Mediated Coupling of Terahertz Antiferromagnetic Resonators M. Białek, W. Knap, and J.-P. Ansermet Phys. Rev. Applied 19, 064007 (2023) – Published 2 June 2023   Layer-Dependent Magnetoresistance and Spin-Transfer Torque in MnSe2-Based Magnetic Tunnel Junctions Baochun Wu, Jie Yang, Shiqi Liu, Shibo Fang, Zhou Liu, Zhongchong Lin, Junjie Shi, Wenyun Yang, Zhaochu Luo, Changsheng Wang, Honglin Du, Jinbo Yang, and Jing Lu Phys. Rev. Applied 19, 064008 (2023) – Published 2 June 2023   Highly Efficient Ultraviolet Harmonic Generation at a Nonlinear Crystal Interface Yan Guan, Yujia Wu, Yuanlin Zheng, Haigang Liu, and Xianfeng Chen Phys. Rev. Applied 19, 064009 (2023) – Published 2 June 2023   Spintronic Hodgkin-Huxley-Analogue Neuron Implemented with a Single Magnetic Tunnel Junction Davi R. Rodrigues, Rayan Moukhader, Yanxiang Luo, Bin Fang, Adrien Pontlevy, Abbas Hamadeh, Zhongming Zeng, Mario Carpentieri, and Giovanni Finocchio Phys. Rev. Applied 19, 064010 (2023) – Published 2 June 2023   Atom-Number Enhancement by Shielding Atoms From Losses in Strontium Magneto-Optical Traps Jonatan Höschele, Sandra Buob, Antonio Rubio-Abadal, Vasiliy Makhalov, and Leticia Tarruell Phys. Rev. Applied 19, 064011 (2023) – Published 5 June 2023   Scattering from Time-Modulated Transmission-Line Loads: Theory and Experiments in Acoustics Matthieu Malléjac and Romain Fleury Phys. Rev. Applied 19, 064012 (2023) – Published 5 June 2023   Linearization of an Electron Beam's Longitudinal Phase Space Using a Hollow-Channel Plasma Yipeng Wu, Zheng Zhou, Yingchao Du, Jianfei Hua, Wei Lu, Warren B. Mori, and Chan Joshi Phys. Rev. Applied 19, 064013 (2023) – Published 5 June 2023   Integrated Broadband Mode Division Demultiplexer in Waveguide Arrays Yu-le Zhao, Chong Sheng, Zi-yi Liu, Shi-ning Zhu, and Hui Liu Phys. Rev. Applied 19, 064014 (2023) – Published 5 June 2023   Transceiver Designs Approaching the Entanglement-Assisted Communication Capacity Ali Cox, Quntao Zhuang, Christos N. Gagatsos, Boulat Bash, and Saikat Guha Phys. Rev. Applied 19, 064015 (2023) – Published 5 June 2023   Sensor Sensitivity Based on Exceptional Points Engineered via Synthetic Magnetism S.R. Mbokop Tchounda, P. Djorwé, S.G. Nana Engo, and B. Djafari-Rouhani Phys. Rev. Applied 19, 064016 (2023) – Published 6 June 2023   Overcoming Fundamental Bounds on Quantum Conference Key Agreement Giacomo Carrara, Gláucia Murta, and Federico Grasselli Phys. Rev. Applied 19, 064017 (2023) – Published 6 June 2023   Compensation of Anisotropy in Spin Hall Devices for Neuromorphic Applications Pankaj Sethi, Dédalo Sanz-Hernández, Florian Godel, Sachin Krishnia, Fernando Ajejas, Alice Mizrahi, Vincent Cros, Danijela Marković, and Julie Grollier Phys. Rev. Applied 19, 064018 (2023) – Published 6 June 2023   Boundless Metamaterial Experimentation: Physical Realization of a Unidirectional Virtual Periodic Boundary Condition Henrik R. Thomsen, Bao Zhao, and Andrea Colombi Phys. Rev. Applied 19, 064019 (2023) – Published 6 June 2023   Small-Signal Modeling of Dissipative Carrier Transport in Nanodevices with Nonequilibrium Green's Functions Alberto Tibaldi, Michele Goano, and Francesco Bertazzi Phys. Rev. Applied 19, 064020 (2023) – Published 6 June 2023   Enhancing the Sensitivity of Atom-Based Microwave-Field Electrometry Using a Mach-Zehnder Interferometer Wenguang Yang, Minyong Jing, Hao Zhang, Linjie Zhang, Liantuan Xiao, and Suotang Jia Phys. Rev. Applied 19, 064021 (2023) – Published 7 June 2023   Breaking the Measurement-Sensitivity–Maximum-Range Limit of Quantum Metrology Using Two Sequences Yang Dong, Ce Feng, Shao-Chun Zhang, Yu Zheng, Xiang-Dong Chen, Guang-Can Guo, and Fang-Wen Sun Phys. Rev. Applied 19, 064022 (2023) – Published 7 June 2023   Effect of Maintaining a Fixed Ambient Temperature on the Evaluation of Photovoltaic Device Performance Ido Frenkel and Avi Niv Phys. Rev. Applied 19, 064023 (2023) – Published 7 June 2023   Two-Qutrit Quantum Algorithms on a Programmable Superconducting Processor Tanay Roy, Ziqian Li, Eliot Kapit, and DavidI. Schuster Phys. Rev. Applied 19, 064024 (2023) – Published 7 June 2023   Discriminating the Phase of a Coherent Tone with a Flux-Switchable Superconducting Circuit L. Di Palma, A. Miano, P. Mastrovito, D. Massarotti, M. Arzeo, G.P. Pepe, F. Tafuri, and O. Mukhanov Phys. Rev. Applied 19, 064025 (2023) – Published 7 June 2023   Reconfigurable Silicon Photonic Chip for the Generation Of Frequency-Bin-Entangled Qudits Massimo Borghi, Noemi Tagliavacche, Federico Andrea Sabattoli, Houssein El Dirani, Laurene Youssef, Camille Petit-Etienne, Erwine Pargon, J.E. Sipe, Marco Liscidini, Corrado Sciancalepore, Matteo Galli, and Daniele Bajoni Phys. Rev. Applied 19, 064026 (2023) – Published 8 June 2023   Integrated Lasers with Transition-Metal-Dichalcogenide Heterostructures: Analysis and Design Utilizing Coupled-Mode Theory for Two-Dimensional Materials Georgios Nousios, Thomas Christopoulos, Odysseas Tsilipakos, and Emmanouil E. Kriezis Phys. Rev. Applied 19, 064027 (2023) – Published 8 June 2023   Fully Packaged Multichannel Cryogenic Quantum Memory Module David J. Starling, Katia Shtyrkova, Ian Christen, Ryan Murphy, Linsen Li, Kevin C. Chen, Dave Kharas, Xingyu Zhang, John Cummings, W. John Nowak, Eric Bersin, Robert J. Niffenegger, Madison Sutula, Dirk Englund, Scott Hamilton, and P. Benjamin Dixon Phys. Rev. Applied 19, 064028 (2023) – Published 8 June 2023   Learning Trajectories from Spin-Wave Dynamics Stuart Watt and Mikhail Kostylev Phys. Rev. Applied 19, 064029 (2023) – Published 8 June 2023   Dynamics and Reversible Control of the Bloch-Point Vortex Domain Wall in Short Cylindrical Magnetic Nanowires Diego Caso, Pablo Tuero, Javier García, Konstantin Y. Guslienko, and Farkhad G. Aliev Phys. Rev. Applied 19, 064030 (2023) – Published 8 June 2023   Programmable Moving Defect for Spatiotemporal Wave Localization in Piezoelectric Metamaterials Renan L. Thomes, Danilo Beli, Christopher Sugino, Alper Erturk, and Carlos De Marqui Junior Phys. Rev. Applied 19, 064031 (2023) – Published 9 June 2023   Gate-Tunable Superconductor-Semiconductor Parametric Amplifier D. Phan, P. Falthansl-Scheinecker, U. Mishra, W.M. Strickland, D. Langone, J. Shabani, and A.P. Higginbotham Phys. Rev. Applied 19, 064032 (2023) – Published 9 June 2023   Effect of Electron Thermal Conductivity on Resonant Plasmonic Detection in Terahertz Hot-Electron Bolometers Based on Metal/Black-AsP/Graphene FETs V. Ryzhii, C. Tang, T. Otsuji, M. Ryzhii, V. Mitin, and M.S. Shur Phys. Rev. Applied 19, 064033 (2023) – Published 9 June 2023   Sequential Photoluminescence Measurements to Explore Electron-Trapping Dynamics in Slow Photoresponse Materials: Zinc Oxide Thin Films as a Model System Muhammed Raees A, Akhil Alexander, Anitha B. Pillai, Vijith K. Pulikodan, Alvin Joseph, and Manoj A.G. Namboothiry Phys. Rev. Applied 19, 064034 (2023) – Published 9 June 2023   Simulating the Spread of Infection in Networks with Quantum Computers Xiaoyang Wang, Yinchenguang Lyu, Changyu Yao, and Xiao Yuan Phys. Rev. Applied 19, 064035 (2023) – Published 9 June 2023   Defect-Complex Engineering to Improve the Optoelectronic Properties of CuInS2 by Phosphorus Incorporation Huiwen Xiang, Jinping Zhang, Feifei Ren, Rui Zhu, Yu Jia, and Chengyan Liu Phys. Rev. Applied 19, 064036 (2023) – Published 12 June 2023   Microscopic Origin of Polarization Charges at GaN/(Al,Ga)N Interfaces Su-Hyun Yoo, Mira Todorova, Jörg Neugebauer, and Chris G. Van de Walle Phys. Rev. Applied 19, 064037 (2023) – Published 12 June 2023   Limits to Quantum Gate Fidelity from Near-Field Thermal and Vacuum Fluctuations Wenbo Sun, Sathwik Bharadwaj, Li-Ping Yang, Yu-Ling Hsueh, Yifan Wang, Dan Jiao, Rajib Rahman, and Zubin Jacob Phys. Rev. Applied 19, 064038 (2023) – Published 12 June 2023   Switching the Symmetry of Graphene Plasmons with Nanoemitters for Ultimate Infrared-Light Confinement In-Ho Lee, Luis Martin-Moreno, Phaedon Avouris, Tony Low, and Sang-Hyun Oh Phys. Rev. Applied 19, 064039 (2023) – Published 12 June 2023   Terahertz Emission Spectroscopy of Exchange-Biased Spintronic Heterostructures: Single- and Double-Pump Techniques Yuichi Saito, Farhan N. Kholid, Evgeny Karashtin, Igor Pashenkin, and Rostislav V. Mikhaylovskiy Phys. Rev. Applied 19, 064040 (2023) – Published 13 June 2023   Fast High-Efficiency Photon-Number-Resolving Parallel Superconducting Nanowire Single-Photon Detector Lorenzo Stasi, Gaëtan Gras, Riad Berrazouane, Matthieu Perrenoud, Hugo Zbinden, and Félix Bussières Phys. Rev. Applied 19, 064041 (2023) – Published 13 June 2023   Meta-Machine-Learning-Based Quantum Scar Detector Chen-Di Han, Cheng-Zhen Wang, and Ying-Cheng Lai Phys. Rev. Applied 19, 064042 (2023) – Published 13 June 2023   Modular Tunable Coupler for Superconducting Circuits Daniel L. Campbell, Archana Kamal, Leonardo Ranzani, Michael Senatore, and Matthew D. LaHaye Phys. Rev. Applied 19, 064043 (2023) – Published 13 June 2023   Infrared Photon-Number-Resolving Imager Using a Skipper Charge-Coupled Device Q. Pears Stefano, A.G. Magnoni, J. Estrada, C. Iemmi, D. Rodrigues, and J. Tiffenberg Phys. Rev. Applied 19, 064044 (2023) – Published 14 June 2023   Spin-Wave Spectral Analysis in Crescent-Shaped Ferromagnetic Nanorods Mateusz Gołębiewski, Hanna Reshetniak, Uladzislau Makartsou, Maciej Krawczyk, Arjen van den Berg, Sam Ladak, and Anjan Barman Phys. Rev. Applied 19, 064045 (2023) – Published 14 June 2023   Isotope-Purification-Induced Reduction of Spin-Relaxation and Spin-Coherence Times in Semiconductors Oscar Bulancea-Lindvall, Matthew T. Eiles, Nguyen Tien Son, Igor A. Abrikosov, and Viktor Ivády Phys. Rev. Applied 19, 064046 (2023) – Published 15 June 2023   In two-dimensional hole systems, the Rashba spin-orbit interaction leads to a spin-dependent momentum. A perpendicular magnetic field spatially separates holes with different spins, creating a mass spectrometer for spin. Spin-resolved magnetic focussing has been used to measure spin polarization from the amplitude of magnetic focussing peaks. In this work, The authors show that the k3 form of the Rashba spin-orbit interaction term for semiconductor holes changes the scattering rate, which has an exponential effect on the focussing peak amplitude. This result further demonstrates the impact of the Rashba spin-orbit interaction in the field of semiconductor hole spin physics.     Alignment-Based Optically Pumped Magnetometer Using a Buffer-Gas Cell L.M. Rushton, L. Elson, A. Meraki, and K. Jensen Phys. Rev. Applied 19, 064047 (2023) – Published 15 June 2023   Tuneable Nonlinear Spin Response in a Nonmagnetic Semiconductor Y.Q. Huang, V. Polojärvi, A. Aho, R. Isoaho, T. Hakkarainen, M. Guina, I.A. Buyanova, and W.M. Chen Phys. Rev. Applied 19, 064048 (2023) – Published 15 June 2023   Physics-Informed Deep Learning for Solving Coupled Electron and Phonon Boltzmann Transport Equations Ruiyang Li, Eungkyu Lee, and Tengfei Luo Phys. Rev. Applied 19, 064049 (2023) – Published 15 June 2023   Asymmetric Switching of Edge Modes by Dynamically Encircling Multiple Exceptional Points Yicong Zhang, Weiwei Liu, Shuaifei Ren, Tianyan Chai, Yanan Wang, Hua Long, Kai Wang, Bing Wang, and Peixiang Lu Phys. Rev. Applied 19, 064050 (2023) – Published 15 June 2023   Piezoelectric Nanocavity Interface for Strong Coupling between a Superconducting Circuit, Phonon, and Spin Hamza Raniwala, Stefan Krastanov, Lisa Hackett, Matt Eichenfield, Dirk R. Englund, and Matthew E. Trusheim Phys. Rev. Applied 19, 064051 (2023) – Published 15 June 2023   Time-Domain Generalization of the Random-Coupling Model and Experimental Verification in a Complex Scattering System Shukai Ma, Thomas M. Antonsen, and Steven M. Anlage Phys. Rev. Applied 19, 064052 (2023) – Published 16 June 2023   Universal Geometric Relations of Acoustic Spin, Energy Flux, and Reactive Power Yang Long, Chenwen Yang, Hong Chen, and Jie Ren Phys. Rev. Applied 19, 064053 (2023) – Published 16 June 2023   Electro-Optical Coupling in Double Diode Structures Nicklas Anttu, Vilgailė Dagytė, Benoît Behaghel, Ivan Radevici, Toufik Sadi, Pyry Kivisaari, and Jani Oksanen Phys. Rev. Applied 19, 064054 (2023) – Published 16 June 2023   Charge-Transfer Dynamics in OLEDs with Coexisting Electroplex and Exciton States Yaru Ning, Xi Zhao, Fengjiao Wu, Yuting Wu, Jing Chen, Fuxian Wei, Huiyao Wang, Xiaoli Chen, and Zuhong Xiong Phys. Rev. Applied 19, 064055 (2023) – Published 16 June 2023   Digital-Analog Co-Design of the Harrow-Hassidim-Lloyd Algorithm Ana Martin, Ruben Ibarrondo, and Mikel Sanz Phys. Rev. Applied 19, 064056 (2023) – Published 20 June 2023   Scanning Cavity Microscopy of a Single-Crystal Diamond Membrane Jonathan Körber, Maximilian Pallmann, Julia Heupel, Rainer Stöhr, Evgenij Vasilenko, Thomas Hümmer, Larissa Kohler, Cyril Popov, and David Hunger Phys. Rev. Applied 19, 064057 (2023) – Published 20 June 2023   Designing Power-Efficient Transistors Using Narrow-Bandwidth Materials from the MA2Z4 (M=Mo, Cr, Zr, Ti, Hf; A=Si, Ge; Z=N, P, As) Monolayer Series Keshari Nandan, Somnath Bhowmick, Yogesh S. Chauhan, and Amit Agarwal Phys. Rev. Applied 19, 064058 (2023) – Published 20 June 2023   Bayesian Estimation of Experimental Parameters in Stochastic Inertial Systems: Theory, Simulations, and Experiments with Objects Levitated in Vacuum M. Šiler, V. Svak, A. Jonáš, S.H. Simpson, O. Brzobohatý, and P. Zemánek Phys. Rev. Applied 19, 064059 (2023) – Published 20 June 2023   Featured in Physics Editors' Suggestion Blueprint for a Molecular-Spin Quantum Processor A. Chiesa, S. Roca, S. Chicco, M.C. de Ory, A. Gómez-León, A. Gomez, D. Zueco, F. Luis, and S. Carretta Phys. Rev. Applied 19, 064060 (2023) – Published 21 June 2023 Synopsis:Design for a Molecule-Based Quantum Processor The physical implementation of any quantum computer still faces important issues related to scalability and error correction. This study sets up the blueprint for a quantum processor based on molecular spins coupled to superconducting resonators, which control different qudits, read out their final states, and establish coherent communication channels between them. The feasibility of this route is demonstrated by an accurate design of the resonator to reach the strong-coupling regime between a single photon and a single molecule. Very good results for proof-of-principle quantum algorithms and quantum simulations are obtained by numerical simulations of a realistic experimental scenario.     Predicting Cell Stress and Strain during Extrusion Bioprinting Sebastian J. Müller, Ben Fabry, and Stephan Gekle Phys. Rev. Applied 19, 064061 (2023) – Published 21 June 2023   Time and Frequency Resolution of Alternating Electric Signals via Single-Atom Sensor Y.-Q. Wei, Q. Yuan, L. Chen, T.-H. Cui, J. Li, S.-Q. Dai, F. Zhou, and M. Feng Phys. Rev. Applied 19, 064062 (2023) – Published 21 June 2023   Electro-Optic Sampling of a Free-Running Terahertz Quantum-Cascade-Laser Frequency Comb Sergej Markmann, David Stark, Matthew Singleton, Mattias Beck, Jérôme Faist, and Giacomo Scalari Phys. Rev. Applied 19, 064063 (2023) – Published 21 June 2023   Acoustic Quadrupolar Surface Topological Semimetals Liping Ye, Qiyun Ma, Shunda Yin, Dan Yao, Hailong He, Manzhu Ke, and Zhengyou Liu Phys. Rev. Applied 19, 064064 (2023) – Published 22 June 2023   Metamaterial-Based Analog Recurrent Neural Network Toward Machine Intelligence Tianxi Jiang, Tianqi Li, Hao Huang, Zhi-Ke Peng, and Qingbo He Phys. Rev. Applied 19, 064065 (2023) – Published 22 June 2023   Characterizing Low-Frequency Qubit Noise Filip Wudarski, Yaxing Zhang, Alexander N. Korotkov, A.G. Petukhov, and M.I. Dykman Phys. Rev. Applied 19, 064066 (2023) – Published 22 June 2023   Compensating for Nonlinear Distortions in Controlled Quantum Systems Juhi Singh, Robert Zeier, Tommaso Calarco, and Felix Motzoi Phys. Rev. Applied 19, 064067 (2023) – Published 23 June 2023   Mechanical Photoluminescence Excitation Spectra of a Strongly Driven Spin-Mechanical System Xinzhu Li and Hailin Wang Phys. Rev. Applied 19, 064068 (2023) – Published 23 June 2023   Charging by Quantum Measurement Jia-shun Yan and Jun Jing Phys. Rev. Applied 19, 064069 (2023) – Published 23 June 2023   Editors' Suggestion Magnon Bundle in a Strongly Dissipative Magnet H.Y. Yuan, Jikun Xie, and Rembert A. Duine Phys. Rev. Applied 19, 064070 (2023) – Published 26 June 2023 The rise of quantum information science based on hybrid quantum systems bridges different areas of research and provides innovative perspectives on quantum technology. Magnons show great potential as information carriers, but generating robust quantum states of magnons in a scalable hybrid system remains an outstanding challenge. Here the authors consider a superconducting qubit coupled to magnets by the dipole interaction. With delicate frequency detuning between magnet and qubit, an exotic quantum state of magnons is found. Interestingly, magnetic dissipation helps to stabilize the quantum states, which readily involves a wide class of magnetic materials in quantum information.     Leakage Reduces Device Coherence Demands for Pulse-Level Molecular Simulations Ayush Asthana, Chenxu Liu, Oinam Romesh Meitei, Sophia E. Economou, Edwin Barnes, and Nicholas J. Mayhall Phys. Rev. Applied 19, 064071 (2023) – Published 26 June 2023   Multiharmonic Resonances of Coupled Time-Modulated Resistive Metasurfaces Theodoros T. Koutserimpas and Constantinos Valagiannopoulos Phys. Rev. Applied 19, 064072 (2023) – Published 26 June 2023   Landé g Factor of Excitons from Circularly Polarized Low-Field Magnetomodulated Reflectance Spectroscopy: Application to Bulk 2H-MoS2 Dibyasankar Das, Vishwas Jindal, Vasam Sugunakar, and Sandip Ghosh Phys. Rev. Applied 19, 064073 (2023) – Published 26 June 2023   Enhanced Readout and Sensitivity of Diamond N-V Centers Coupled to Hyperbolic Metamaterial Photonic Cavities Jonathan Bar-David, Sigal A. Wolf, S. R. K. Chaitanya Indukuri, Rotem Malkinson, Noa Mazurski, Uriel Levy, and Nir Bar-Gill Phys. Rev. Applied 19, 064074 (2023) – Published 27 June 2023   Determining the Eccentricity of Source Masses in the Measurement of Newtonian Gravitational Constant Using an Air-Bearing Method Jian-Ping Liu, Chao Xue, Bing-Peng Wang, Qing Li, Wen-Hai Tan, Qi Liu, Cheng-Gang Shao, Liang-Cheng Tu, Shan-qing Yang, and Jun Luo Phys. Rev. Applied 19, 064075 (2023) – Published 27 June 2023   Gigahertz Phononic Integrated Circuits Based on Overlay Slot Waveguides Ziyao Feng, Yang Liu, Xiang Xi, Lai Wang, and Xiankai Sun Phys. Rev. Applied 19, 064076 (2023) – Published 27 June 2023   Controllable Perpendicular Magnetic Anisotropy in Fe/Fe100−xRhx Heterostructures Probed by Ferromagnetic Resonance Hiroki Omura, Sachio Komori, Shigeo Arai, Kahoru Yoda, Keiichiro Imura, and Tomoyasu Taniyama Phys. Rev. Applied 19, 064077 (2023) – Published 28 June 2023   Identification of a Large Number of Spin-Wave Eigenmodes Excited by Parametric Pumping in Yttrium Iron Garnet Microdisks T. Srivastava, H. Merbouche, I. Ngouagnia Yemeli, N. Beaulieu, J. Ben Youssef, M. Muñoz, P. Che, P. Bortolotti, V. Cros, O. Klein, S. Sangiao, J.M. De Teresa, S.O. Demokritov, V.E. Demidov, A. Anane, C. Serpico, M. d'Aquino, and G. de Loubens Phys. Rev. Applied 19, 064078 (2023) – Published 28 June 2023   Direct Electrical Probing of Anomalous Nernst Conductivity Weinan Zhou, Asuka Miura, Yuya Sakuraba, and Ken-ichi Uchida Phys. Rev. Applied 19, 064079 (2023) – Published 28 June 2023   High-Gain Low-Noise Phototransistors Based on Solution-Processed Bi2S3 Nanocrystals Yujie Yang, Zhenglin Jia, Yanyan Li, Ruiming Li, Yong Liu, Fang Yao, Xiangming Fang, Huiming Huang, and Qianqian Lin Phys. Rev. Applied 19, 064080 (2023) – Published 28 June 2023   Quantum Computing is Scalable on a Planar Array of Qubits with Fabrication Defects Armands Strikis, Simon C. Benjamin, and Benjamin J. Brown Phys. Rev. Applied 19, 064081 (2023) – Published 29 June 2023   Cross-Polarization-Extinction Enhancement and Spin-Orbit Coupling of Light for Quantum-Dot Cavity Quantum Electrodynamics Spectroscopy P. Steindl, J.A. Frey, J. Norman, J.E. Bowers, D. Bouwmeester, and W. Löffler Phys. Rev. Applied 19, 064082 (2023) – Published 29 June 2023   Editors' Suggestion Pure-State Photon-Pair Source with a Long Coherence Time for Large-Scale Quantum Information Processing Bo Li, Yu-Huai Li, Yuan Cao, Juan Yin, and Cheng-Zhi Peng Phys. Rev. Applied 19, 064083 (2023) – Published 29 June 2023 This study presents an experimental technique to tackle technical obstacles in generating photon pairs in pure states with extended coherence times. Such photon sources are vital for large-scale quantum information processing. The authors successfully eliminate the frequency correlation of parametric photons using optimal filtering, which enables high-quality Hong-Ou-Mandel interference between two photon sources. This breakthrough has promising practical applications in quantum science and can facilitate engineering solutions for long-distance quantum interference.     Temperature Sensitivity of 14N-V and 15N-V Ground-State Manifolds Sean Lourette, Andrey Jarmola, Victor M. Acosta, A. Glen Birdwell, Dmitry Budker, Marcus W. Doherty, Tony Ivanov, and Vladimir S. Malinovsky Phys. Rev. Applied 19, 064084 (2023) – Published 30 June 2023   Generation of Spin-Wave Pulses by Inverse Design S. Casulleras, S. Knauer, Q. Wang, O. Romero-Isart, A.V. Chumak, and C. Gonzalez-Ballestero Phys. Rev. Applied 19, 064085 (2023) – Published 30 June 2023   Digital-Analog Quantum Simulation of Fermionic Models Lucas C. Céleri, Daniel Huerga, Francisco Albarrán-Arriagada, Enrique Solano, Mikel Garcia de Andoin, and Mikel Sanz Phys. Rev. Applied 19, 064086 (2023) – Published 30 June 2023   Measuring and Simulating the Local Packing Density Resulting From Ultrasound-Directed Self-Assembly of Spherical Microparticles into Specific Patterns Soheyl Noparast, Fernando Guevara Vasquez, Mathieu Francoeur, and Bart Raeymaekers Phys. Rev. Applied 19, 064087 (2023) – Published 30 June 2023   Creation of a Nanoskyrmion Lattice in the Fe/Ir(111) System Using a Voltage Pulse Yulong Yang, Mingming Shuai, Haiming Huang, Rui Song, Yi Zhu, Yanghui Liao, Yinyan Zhu, Xiaodong Zhou, Lifeng Yin, and Jian Shen Phys. Rev. Applied 19, 064088 (2023) – Published 30 June 2023     American Physical Society: 1 Physics Ellipse, College Park, MD 20740 ©2023 American Physical Society | All rights reserved   You are receiving this email because you are subscribed to Table of Content alerts. If you no longer wish to receive these emails, please update your preferences.