From the Kinematics of Precession Motion to Generalized Rabi Cycles by Danail S. Brezov, Clementina D. Mladenova, Ivaïlo M. Mladenov

“…The latter appears also in the description of spin precessions in NMR and quantum computing. As we show below, this problem has analytic solutions for a much larger class of motions determined by a simple condition relating the polar angle and z-projection of Ω (expressed in cylindrical coordinates), which are both time-dependent in the generic case. …”
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Research on A Lattice-Based Fuzzy Signature and Bimodal Gaussian by Jinxin Huang, Jie Cai, Fenghe Wang, Junquan Wang

“…With the advent of quantum computing, lattice-based digital signatures are considered potential candidates for resisting quantum attacks. …”
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Long-range data transmission in a fault-tolerant quantum bus architecture by Shin Ho Choe, Robert König

“…The scheme can be viewed as a quantum bus in a quantum computing architecture where qubits are arranged on a rectangular 3D grid, and all operations are between neighboring qubits. …”
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High Optical Access Cryogenic System for Rydberg Atom Arrays with a 3000-Second Trap Lifetime by Zhenpu Zhang, Ting-Wei Hsu, Ting You Tan, Daniel H. Slichter, Adam M. Kaufman, Matteo Marinelli, Cindy A. Regal

“…This low-vibration, high-optical-access cryogenic platform can be used with a wide range of optically trapped atomic or molecular species for applications in quantum computing, simulation, and metrology.…”
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Security Authentication Protocol for Underwater Sensor Networks Based on NTRU by Fan Jiang, Ming Xu

“…Sensor nodes face resource limitations and the threat of quantum computing attacks, making it challenging for traditional authentication protocols to balance security and computational efficiency. …”
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Quantum circuits from non-unitary sparse binary matrices by Krishnageetha Karuppasamy, Varunteja Puram, K. M. George, Thomas P. Johnson

“…Abstract Quantum computing leverages unitary matrices to perform reversible computations while preserving probability norms. …”
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Toward a 2D Local Implementation of Quantum Low-Density Parity-Check Codes by Noah Berthusen, Dhruv Devulapalli, Eddie Schoute, Andrew M. Childs, Michael J. Gullans, Alexey V. Gorshkov, Daniel Gottesman

“…For device architectures restricted to two-dimensional (2D) local gates, naively implementing the high-rate codes suitable for low-overhead fault-tolerant quantum computing incurs prohibitive overhead. In this work, we present an error-correction protocol built on a bilayer architecture that aims to reduce operational overheads when restricted to 2D local gates by measuring some generators less frequently than others. …”
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Mitigating errors in logical qubits by Samuel C. Smith, Benjamin J. Brown, Stephen D. Bartlett

“…Abstract Quantum error correcting codes can enable large quantum computations provided physical error rates are sufficiently low. …”
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Unveiling quantum phase transitions from traps in variational quantum algorithms by Chenfeng Cao, Filippo Maria Gambetta, Ashley Montanaro, Raul A. Santos

“…This approach leverages the capability of near-term quantum computers to prepare locally trapped states through finite optimization. …”
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Neuro-Driven Agent-Based Security for Quantum-Safe 6G Networks by Mohammed Alwakeel

“…Around the same time that 6G networks will be launched, advances in quantum computing could challenge existing cryptographic security. …”
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An efficient lattice-based integrated revocable identity-based encryption by Haodong Huang, Juyan Li, Shujun Bi, Qi Yuan

“…By combining online and offline encryption, we construct an OO-IRIBE-EnDKER scheme from lattices, which possesses properties such as anonymity, decryption key exposure resistance (DKER), resistance to quantum computing attacks, and selective security. Finally, the effectiveness of the OO-IRIBE-EnDKER scheme is demonstrated through experimental results.…”
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Two-photon decay enhanced even photon bundle emission by Biao Xiong, Qian Bin, Shi-Lei Chao, Ji-Bing Liu, Xin-You Lü

“…Multiquanta emission holds significant value for quantum computing and quantum information processing. In this study, we aim to enhance multiphoton bundle emission by introducing two-photon decay into cavity quantum electrodynamics systems. …”
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Low Overhead Qutrit Magic State Distillation by Shiroman Prakash, Tanay Saha

“…We show that using qutrits rather than qubits leads to a substantial reduction in the overhead cost associated with an approach to fault-tolerant quantum computing known as magic state distillation. We construct a family of $[[9m-k, k, 2]]_3$ triorthogonal qutrit error-correcting codes for any positive integers $m$ and $k$ with $k \leq 3m-2$ that are suitable for magic state distillation. …”
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Operating Semiconductor Qubits without Individual Barrier Gates by Alexander S. Ivlev, Damien R. Crielaard, Marcel Meyer, William I. L. Lawrie, Nico W. Hendrickx, Amir Sammak, Yuta Matsumoto, Lieven M. K. Vandersypen, Giordano Scappucci, Corentin Déprez, Menno Veldhorst

“…Semiconductor spin qubits have emerged as a promising platform for quantum computing, following a significant improvement in their control fidelities over recent years. …”
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Calibration of syndrome measurements in a single experiment by Christian Wimmer, Jochen Szangolies, Michael Epping

“…Finally, we discuss the results of experiments performed on an IBM quantum computer.…”
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Magic spreading in random quantum circuits by Xhek Turkeshi, Emanuele Tirrito, Piotr Sierant

“…Abstract Magic is the resource that quantifies the amount of beyond-Clifford operations necessary for universal quantum computing. It bounds the cost of classically simulating quantum systems via stabilizer circuits central to quantum error correction and computation. …”
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Modeling and Optimization of Vehicle Suspension Employing a Nonlinear Fluid Inerter by Yujie Shen, Long Chen, Yanling Liu, Xiaoliang Zhang

“…So, parameters of the suspension system including the spring stiffness and the damping coefficient are optimized by means of QGA (quantum genetic algorithm), which combines the genetic algorithm and quantum computing. Results indicate that, compared with the original nonlinear suspension system, the RMS (root-mean-square) of vertical body acceleration of optimized suspension has decreased by 9.0%, the RMS of pitch angular acceleration has decreased by 19.9%, and the RMS of roll angular acceleration has decreased by 9.6%.…”
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Remote quantum networks based on quantum memories by Zhu Tian-Xiang, Liu Xiao, Zhou Zong-Quan, Li Chuan-Feng

“…Quantum networks, capable of transmitting arbitrary quantum states, provide a foundation for a wide range of quantum applications, including distributed quantum computing, distributed quantum sensing, and quantum communication. …”
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Learning Fourier series with parametrized quantum circuits by Dirk Heimann, Hans Hohenfeld, Gunnar Schönhoff, Elie Mounzer, Frank Kirchner

“…Variational quantum algorithms (VQAs) and their applications in the field of quantum machine learning through parametrized quantum circuits (PQCs) are thought to be one major way of leveraging noisy intermediate-scale quantum computing devices. However, differences in the performance of certain VQA architectures are often unclear since established best practices, as well as detailed studies, are missing. …”
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Nuclear clustering over the nuclear chart from a covariant EDF approach by Ebran Jean-Paul, Heitz Louis, Khan Elias, Lasseri Raphaël-David, Mercier Florian, Nikšić Tamara, Vretenar Dario, Yüksel Esra, Zhao Jie

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