Quantum correlations beyond entanglement between two moving atoms interacting with a coherent cavity by F.M. Aldosari, Ahmad Almutlg, A.-B.A. Mohamed

“…Studying the ability of atom-photon interactions, especially in two two-level atomic systems, to generate quantum information resources has recently become an important research topic in quantum information science. Therefore, this paper explores the ability of two moving atoms coupling with a coherent field through a two-photon transition to generate atomic quantum correlations by using local quantum uncertainty (LQU), local quantum Fisher information (LQFI) as well as logarithmic negativity (LN). …”
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Quantum Key Distribution Applicability to Smart Grid Cybersecurity Systems by Warren Grice, Mohammed Olama, Annabelle Lee, Philip G. Evans

“…However, with the increasing number of sophisticated attacks as well as the increasing computational power, the security of the “classical” cryptographic algorithms is threatened. Quantum information science offers solutions to this problem, specifically quantum key distribution (QKD), which provides a means for the generation and secure distribution of symmetric cryptographic keys. …”
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Phononic modulation of spin-lattice relaxation in molecular qubit frameworks by Aimei Zhou, Denan Li, Mingshu Tan, Yanpei Lv, Simin Pang, Xinxing Zhao, Zhifu Shi, Jun Zhang, Feng Jin, Shi Liu, Lei Sun

“…Abstract The solid-state integration of molecular electron spin qubits could promote the advancement of molecular quantum information science. With highly ordered structures and rational designability, microporous framework materials offer ideal matrices to host qubits. …”
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Probing the universality of topological defect formation in a quantum annealer: Kibble-Zurek mechanism and beyond by Yuki Bando, Yuki Susa, Hiroki Oshiyama, Naokazu Shibata, Masayuki Ohzeki, Fernando Javier Gómez-Ruiz, Daniel A. Lidar, Sei Suzuki, Adolfo del Campo, Hidetoshi Nishimori

“…This universal scaling law is the key prediction of the Kibble-Zurek mechanism (KZM), and testing it using a hardware-based quantum simulator is a coveted goal of quantum information science. Here we provide such a test using quantum annealing. …”
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Manipulating quantum coherence of charge states in interacting double-dot Aharonov–Bohm interferometers by Jinshuang Jin, Shikuan Wang, Jiahuan Zhou, Wei-Min Zhang, YiJing Yan

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Pedagogical Review of Quantum Measurement Theory with an Emphasis on Weak Measurements by Bengt E. Y. Svensson

“…It has recently been invigorated, partly due to the increasing interest in quantum information science. In this partly pedagogical review I attempt to give a self-contained overview of non-relativistic quantum theory of measurement expressed in density matrix formalism. …”
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Demonstration of Maxwell demon-assisted Einstein-Podolsky-Rosen steering via superconducting quantum processor by Z. T. Wang, Ruixia Wang, Peng Zhao, Z. H. Yang, Yun-Hao Shi, Kaixuan Huang, Kai Xu, Yong-Sheng Zhang, Heng Fan, S. P. Zhao, Meng-Jun Hu, Haifeng Yu

“…Given the rapid advancements in the field of quantum information science, there is a growing interest and significance in investigating the connection between Maxwell demon and quantum correlation. …”
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The Concept of a Quantum Edge Simulator: Edge Computing and Sensing in the Quantum Era by Ali Passian, Gilles Buchs, Christopher M. Seck, Alberto M. Marino, Nicholas A. Peters

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Semiconductor nanowire metamaterial for broadband near-unity absorption by Burak Tekcan, Brad van Kasteren, Sasan V. Grayli, Daozhi Shen, Man Chun Tam, Dayan Ban, Zbigniew Wasilewski, Adam W. Tsen, Michael E. Reimer

“…Abstract The realization of a semiconductor near-unity absorber in the infrared will provide new capabilities to transform applications in sensing, health, imaging, and quantum information science, especially where portability is required. …”
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Riemannian geometry and automatic differentiation for optimization problems of quantum physics and quantum technologies by Ilia A Luchnikov, Mikhail E Krechetov, Sergey N Filippov

“…Optimization with constraints is a typical problem in quantum physics and quantum information science that becomes especially challenging for high-dimensional systems and complex architectures like tensor networks. …”
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Physical interpretation of nonlocal quantum correlation through local description of subsystems by Tanumoy Pramanik, Xiaojiong Chen, Yu Xiang, Xudong Li, Jun Mao, Jueming Bao, Yaohao Deng, Tianxiang Dai, Bo Tang, Yan Yang, Zhihua Li, Qihuang Gong, Qiongyi He, Jianwei Wang

“…Abstract Characterization and categorization of quantum correlations are both fundamentally and practically important in quantum information science. Although quantum correlations such as non-separability, steerability, and non-locality can be characterized by different theoretical models in different scenarios with either known (trusted) or unknown (untrusted) knowledge of the associated systems, such characterization sometimes lacks unambiguous to experimentalist. …”
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Ultrafast photoluminescence and multiscale light amplification in nanoplasmonic cavity glass by Piotr Piotrowski, Marta Buza, Rafał Nowaczyński, Nuttawut Kongsuwan, Hańcza B. Surma, Paweł Osewski, Marcin Gajc, Adam Strzep, Witold Ryba-Romanowski, Ortwin Hess, Dorota A. Pawlak

“…Abstract Interactions between plasmons and exciton nanoemitters in plexcitonic systems lead to fast and intense luminescence, desirable in optoelectonic devices, ultrafast optical switches and quantum information science. While luminescence enhancement through exciton-plasmon coupling has thus far been mostly demonstrated in micro- and nanoscale structures, analogous demonstrations in bulk materials have been largely neglected. …”
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Local gate control of Mott metal-insulator transition in a 2D metal-organic framework by Benjamin Lowe, Bernard Field, Jack Hellerstedt, Julian Ceddia, Henry L. Nourse, Ben J. Powell, Nikhil V. Medhekar, Agustin Schiffrin

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Units of rotational information by Yuxiang Yang, Giulio Chiribella, Qinheping Hu

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Machine-Guided Design of Oxidation-Resistant Superconductors for Quantum Information Applications by Carson Koppel, Brandon Wilfong, Allana Iwanicki, Elizabeth Hedrick, Tanya Berry, Tyrel M. McQueen

“…This allowed us to compute the metric for materials that are not present in the Materials Project, including a large selection of known superconductors, and, when combined with T_c, allowed us to identify new candidate superconductors for quantum information science and engineering (QISE) applications. …”
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Efficient code for relativistic quantum summoning by Ya-Dong Wu, Abdullah Khalid, Barry C Sanders

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Strong single-photon to two-photon bundles emission in spin-1 Jaynes–Cummings model by Jing Tang, Yuangang Deng

“…High-quality special nonclassical states beyond the strong single atom-cavity coupling regime are fundamental elements in quantum information science. Here, we study strong single-photon blockade to two-photon bundles emission in a single spin-1 atom coupled to an optical cavity by constructing a spin-1 Jaynes–Cummings model (JCM). …”
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Microcanonical thermodynamics in general physical theories by Giulio Chiribella, Carlo Maria Scandolo

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Effective Field Theory for Rydberg Polaritons by Gullans, M. J., Wang, Y., Lukin, M. D., Gorshkov, A. V., Thompson, Jeffrey Douglas, Liang, Qiyu, Vuletic, Vladan

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Two-axis-twisting spin squeezing by multipass quantum erasure by Wang, Mingfeng, Qu, Weizhi, Li, Pengxiong, Bao, Han, Xiao, Yanhong, Vuletic, Vladan

“…Many-body entangled states are key elements in quantum information science and quantum metrology. One important problem in establishing a high degree of many-body entanglement using optical techniques is the leakage of the system information via the light that creates such entanglement. …”
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