Gauge-invariant and anyonic-symmetric autoregressive neural network for quantum lattice models by Di Luo, Zhuo Chen, Kaiwen Hu, Zhizhen Zhao, Vera Mikyoung Hur, Bryan K. Clark

“…Our approach provides powerful tools for exploring condensed-matter physics, high-energy physics, and quantum information science.…”
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Two-Photon Interface of Nuclear Spins Based on the Optonuclear Quadrupolar Effect by Haowei Xu, Changhao Li, Guoqing Wang, Hua Wang, Hao Tang, Ariel Rebekah Barr, Paola Cappellaro, Ju Li

“…Photons and nuclear spins are two well-known building blocks in quantum information science and technology. Establishing an efficient interface between optical photons and nuclear spins, while highly desirable for hybridizing these two quantum systems, is challenging, because the interactions between nuclear spins and the environment are usually weak in magnitude, and there is also a formidable gap between nuclear spin frequencies and optical frequencies. …”
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Quantum simulation of quantum field theories as quantum chemistry by Junyu Liu, Yuan Xin

“…We show that this construction is very similar to quantum simulation problems appearing in quantum chemistry (which are widely investigated in quantum information science), and the renormalization group theory provides a field theory interpretation of conformal truncation simulation. …”
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Generic Entanglement Entropy for Quantum States with Symmetry by Yoshifumi Nakata, Mio Murao

“…This property of a random state is known as generic entanglement of quantum states and has been long investigated from many perspectives, ranging from the black hole science to quantum information science. In this paper, we address the question of how symmetry of quantum states changes the properties of generic entanglement. …”
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Experimental realization of multipartite entanglement via quantum Fisher information in a uniform antiferromagnetic quantum spin chain by George Mathew, Saulo L. L. Silva, Anil Jain, Arya Mohan, D. T. Adroja, V. G. Sakai, C. V. Tomy, Alok Banerjee, Rajendar Goreti, Aswathi V. N., Ranjit Singh, D. Jaiswal-Nagar

“…Detecting and quantifying multiparticle entanglement in a many-body system is thus of fundamental significance for both quantum information science and condensed-matter physics. Here, we detect and quantify multipartite entanglement in a spin-1/2 Heisenberg antiferromagnetic chain in a bulk solid. …”
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Assessing the Progress of Trapped-Ion Processors Towards Fault-Tolerant Quantum Computation by A. Bermudez, X. Xu, R. Nigmatullin, J. O’Gorman, V. Negnevitsky, P. Schindler, T. Monz, U. G. Poschinger, C. Hempel, J. Home, F. Schmidt-Kaler, M. Biercuk, R. Blatt, S. Benjamin, M. Müller

“…A quantitative assessment of the progress of small prototype quantum processors towards fault-tolerant quantum computation is a problem of current interest in experimental and theoretical quantum information science. We introduce a necessary and fair criterion for quantum error correction (QEC), which must be achieved in the development of these quantum processors before their sizes are sufficiently big to consider the well-known QEC threshold. …”
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Universal interference-based construction of Gaussian operations in hybrid quantum systems by Mengzhen Zhang, Shoumik Chowdhury, Liang Jiang

“…Our results provide efficient construction of operations crucial to quantum information science, and are derived from fundamental physical properties of bosonic systems. …”
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Generation of path-polarization hyperentanglement using quasi-phase-matching in quasi-periodic nonlinear photonic crystal by Guangqiang He, Chengrui Zhu, Yao Jiang, Jie Ren, Ying Guo, Jietai Jing

“…This compact quantum light source can be used as a significant ingredient in quantum information science.…”
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Advances in Quantum Cryptography by Pirandola, Stefano, Bunandar, Darius, Englund, Dirk R.

“…Quantum cryptography is arguably the fastest growing area in quantum information science.Novel theoretical protocols are designed on a regular basis, security proofs are constantly improv-ing, and experiments are gradually moving from proof-of-principle lab demonstrations to in-fieldimplementations and technological prototypes. …”
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Framework for classifying logical operators in stabilizer codes by Yoshida, Beni, Chuang, Isaac L.

“…Entanglement, as studied in quantum information science, and nonlocal quantum correlations, as studied in condensed matter physics, are fundamentally akin to each other. …”
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Measurement-based quantum computing with valence-bond-solids by Kwek, Leong Chuan., Wei, Zhaohui., Zeng, Bei.

“…This study has led to an interesting interdisciplinary research area at the interface of quantum information science and condensed matter physics.…”
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Simplification of the Gram Matrix Eigenvalue Problem for Quadrature Amplitude Modulation Signals by Ryusuke Miyazaki, Tiancheng Wang, Tsuyoshi Sasaki Usuda

“…In quantum information science, it is very important to solve the eigenvalue problem of the Gram matrix for quantum signals. …”
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Room temperature valley polarization via spin selective charge transfer by Shreetu Shrestha, Mingxing Li, Suji Park, Xiao Tong, Donald DiMarzio, Mircea Cotlet

“…Abstract The two degenerate valleys in transition metal dichalcogenides can be used to store and process information for quantum information science and technology. A major challenge is maintaining valley polarization at room temperature where phonon-induced intervalley scattering is prominent. …”
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Effective Control of the Optical Bistability of a Three-Level Quantum Emitter near a Nanostructured Plasmonic Metasurface by Hamid R. Hamedi, Emmanuel Paspalakis, Vassilios Yannopapas

“…The results may find technological application in on-chip nanoscale photonic devices, optoelectronics and solid-state quantum information science.…”
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Continuous-variable ramp quantum secret sharing with Gaussian states and operations by Masoud Habibidavijani, Barry C Sanders

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Frequency-Shifted Interferometry — A Versatile Fiber-Optic Sensing Technique by Fei Ye, Yiwei Zhang, Bing Qi, Li Qian

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On the Significance of the Quantum Mechanical Covariance Matrix by Avishy Carmi, Eliahu Cohen

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Midcircuit Operations Using the omg Architecture in Neutral Atom Arrays by Joanna W. Lis, Aruku Senoo, William F. McGrew, Felix Rönchen, Alec Jenkins, Adam M. Kaufman

“…Midcircuit operations, such as qubit state measurement or reset, are central to many tasks in quantum information science, including quantum computing, entanglement generation, and metrology. …”
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Changing optical band structure with single photons by Andreas Albrecht, Tommaso Caneva, Darrick E Chang

“…Achieving strong interactions between individual photons enables a wide variety of exciting possibilities in quantum information science and many-body physics. Cold atoms interfaced with nanophotonic structures have emerged as a platform to realize novel forms of nonlinear interactions. …”
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Implementation and goals of quantum optics experiments in undergraduate instructional labs by Victoria Borish, H. J. Lewandowski

“…As quantum information science and technology (QIST) is becoming more prevalent and occurring not only in research labs but also in industry, many educators are considering how best to incorporate learning about quantum mechanics into various levels of education. …”
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