Bayesian Estimation of Oscillator Parameters: Toward Anomaly Detection and Cyber-Physical System Security by Joseph M. Lukens, Ali Passian, Srikanth Yoginath, Kody J. H. Law, Joel A. Dawson

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Fast delivery of heralded atom-photon quantum correlation over 12 km fiber through multiplexing enhancement by Sheng Zhang, Jixuan Shi, Yibo Liang, Yuedong Sun, Yukai Wu, Luming Duan, Yunfei Pu

“…Abstract Distributing quantum entanglement between distant parties is a significant but difficult task in quantum information science, as it can enable numerous applications but suffers from exponential decay in the quantum channel. …”
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Non-Markovian noise mitigation in quantum teleportation: enhancing fidelity and entanglement by Haiyang Zhang, Xiaoxiang Han, Guoqing Zhang, Lianbi Li, Lin Cheng, Jun Wang, Yunjie Zhang, Yanwen Xia, Caijuan Xia

“…Abstract Maintaining quantum coherence and entanglement in the presence of environmental noise, particularly within non-Markovian contexts, represents a significant challenge for the progression of quantum information science and technology. This study offers a substantial advancement by investigating the dynamics of a two-qubit system subjected to diverse noise conditions, encompassing relaxation, dephasing, and their cumulative effects. …”
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Precise space–time positioning for entanglement harvesting by Eduardo Martín-Martínez, Barry C Sanders

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A universal metasurface antenna to manipulate all fundamental characteristics of electromagnetic waves by Geng-Bo Wu, Jun Yan Dai, Kam Man Shum, Ka Fai Chan, Qiang Cheng, Tie Jun Cui, Chi Hou Chan

“…The proposed UMA with unparalleled EM wave and information manipulation capabilities will spark a surge of applications from next-generation wireless systems, cognitive sensing, and imaging to quantum optics and quantum information science.…”
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Near-Optimal Covariant Quantum Error-Correcting Codes from Random Unitaries with Symmetries by Linghang Kong, Zi-Wen Liu

“…Quantum error correction and symmetries play central roles in quantum information science and physics. It is known that quantum error-correcting codes that obey (are covariant with respect to) continuous symmetries in a certain sense cannot correct erasure errors perfectly (a well-known result in this regard being the Eastin-Knill theorem in the context of fault-tolerant quantum computing), in contrast to the case without symmetry constraints. …”
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Quantum state tomography of orbital angular momentum photonic qubits via a projection-based technique by Adrien Nicolas, Lucile Veissier, Elisabeth Giacobino, Dominik Maxein, Julien Laurat

“…For applications to quantum optics and quantum information science, such characterization is an essential capability. …”
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Corrigendum: Dangling-bond charge qubit on a silicon surface (2010 New J. Phys. 12 083018) by Lucian Livadaru, Peng Xue, Zahra Shaterzadeh-Yazdi, Gino A DiLabio, Josh Mutus, Jason L Pitters, Barry C Sanders, Robert A Wolkow

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Entanglement and quantum coherence of two YIG spheres in a hybrid Laguerre–Gaussian cavity optomechanics by Abdelkader Hidki, Jia-Xin Peng, S. K. Singh, M. Khalid, M. Asjad

“…So, our present study shall provide a method to control various nonclassical quantum correlations of macroscopic objects in the hybrid L–G rotational cavity optomechanical system and have potential applications in quantum sensing, quantum meteorology, and quantum information science.…”
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Enhancing Spin Coherence in Optically Addressable Molecular Qubits through Host-Matrix Control by S. L. Bayliss, P. Deb, D. W. Laorenza, M. Onizhuk, G. Galli, D. E. Freedman, D. D. Awschalom

“…Optically addressable spins are a promising platform for quantum information science due to their combination of a long-lived qubit with a spin-optical interface for external qubit control and readout. …”
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Entanglement, non-Markovianity, and causal non-separability by Simon Milz, Felix A Pollock, Thao P Le, Giulio Chiribella, Kavan Modi

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Preparation and Analysis of Two-Dimensional Four-Qubit Entangled States with Photon Polarization and Spatial Path by Jiaqiang Zhao, Meijiao Wang, Bing Sun, Lianzhen Cao, Yang Yang, Xia Liu, Qinwei Zhang, Huaixin Lu, Kellie Ann Driscoll

“…Entanglement states serve as the central resource for a number of important applications in quantum information science, including quantum key distribution, quantum precision measurement, and quantum computing. …”
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Group-III quantum defects in diamond are stable spin-1 color centers by Harris, Isaac, Englund, Dirk R.

“…These predictions can guide experimental identification of group-III vacancy centers and their use in applications in quantum information science and technology.…”
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Miniaturized Chip-Scale Quantum and Terahertz Systems Through Tight Integration of Electronics, Electromagnetics, and Qubits by Ibrahim, Mohamed Ibrahim Mohamed

“…The utilization of electromagnetic waves in quantum information science and the least-explored terahertz (THz) regime are posed to revolutionize sensing, computing, and communication. …”
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Protocols and Devices for Scalable Spin-Photon Quantum Networks by Chen, Kevin C.

“…One of the central goals in quantum information science is constructing a quantum network useful for quantum communication, sensing, and computation. …”
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Hybrid quantum information processing with continuous and discrete variables of light fields by Donati, G

“…<p>Quantum correlations play a fundamental role in quantum information science. The variety of their manifestations has become increasingly apparent following the development of novel light sources, protocols and photodetectors. …”

Spin-bath polarization via disentanglement by D D Bhaktavatsala Rao, Arnab Ghosh, David Gelbwaser-Klimovsky, Nir Bar-Gill, Gershon Kurizki

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Bounds on nonlocal correlations in the presence of signaling and their application to topological zero modes by Avishy Carmi, Yaroslav Herasymenko, Eliahu Cohen, Kyrylo Snizhko

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Finite-key security analysis of quantum key distribution with imperfect light sources by Akihiro Mizutani, Marcos Curty, Charles Ci Wen Lim, Nobuyuki Imoto, Kiyoshi Tamaki

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Electromagnetically induced transparency quantum memory for non-classical states of light by Xing Lei, Lixia Ma, Jieli Yan, Xiaoyu Zhou, Zhihui Yan, Xiaojun Jia

“…Quantum memory (QM) enables quantum state mapping between flying and stationary quantum states and is the building block of quantum information science, which enables to achieve a plethora of quantum information protocols, such as quantum state transfer across remote quantum nodes, distributed quantum logic gate, and quantum precession measurement network. …”
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