General quantum algorithms for Hamiltonian simulation with applications to a non-Abelian lattice gauge theory by Zohreh Davoudi, Alexander F. Shaw, Jesse R. Stryker

“…With a focus on universal quantum computing for quantum simulation, and through the example of lattice gauge theories, we introduce rather general quantum algorithms that can efficiently simulate certain classes of interactions consisting of correlated changes in multiple (bosonic and fermionic) quantum numbers with non-trivial functional coefficients. …”
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Attribute-Based Encryption in Securing Big Data from Post-Quantum Perspective: A Survey by Zulianie Binti Jemihin, Soo Fun Tan, Gwo-Chin Chung

“…Due to its fine-grained features, the ABE scheme is a protection layer in securing users’ data and privacy in big data processing and analytics. However, quantum computing, new technology on the horizon that will transform the security and privacy environment, has begun to appear. …”
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6-qubit optimal Clifford circuits by Sergey Bravyi, Joseph A. Latone, Dmitri Maslov

“…Abstract Clifford group lies at the core of quantum computation—it underlies quantum error correction, its elements can be used to perform magic state distillation and they form randomized benchmarking protocols, Clifford group is used to study quantum entanglement, and more. …”
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Continuous-time quantum walk based centrality testing on weighted graphs by Yang Wang, Shichuan Xue, Junjie Wu, Ping Xu

“…Taking advantage of the speedup offered by quantum computation, various quantum centrality measures have been proposed. …”
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The Quantum Path Kernel: A Generalized Neural Tangent Kernel for Deep Quantum Machine Learning by Massimiliano Incudini, Michele Grossi, Antonio Mandarino, Sofia Vallecorsa, Alessandra Di Pierro, David Windridge

“…Building a quantum analog of classical deep neural networks represents a fundamental challenge in quantum computing. A key issue is how to address the inherent nonlinearity of classical deep learning, a problem in the quantum domain due to the fact that the composition of an arbitrary number of quantum gates, consisting of a series of sequential unitary transformations, is intrinsically linear. …”
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Paving the Way for SQI<span style="font-variant: small-caps">sign</span>: Toward Efficient Deployment on 32-bit Embedded Devices by Yue Hu, Shiyu Shen, Hao Yang, Weize Wang

“…The threat of quantum computing has spurred research into post-quantum cryptography. …”
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Theory of variational quantum simulation by Xiao Yuan, Suguru Endo, Qi Zhao, Ying Li, Simon C. Benjamin

“…Great efforts have recently been devoted to its extension to quantum computing for efficiently solving static many-body problems and simulating real and imaginary time dynamics. …”
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Quantum Key Distribution for V2I communications with software‐defined networking by Alexandros Stavdas, Evangelos Kosmatos, Carsten Maple, Emilio Hugues‐Salas, Gregory Epiphaniou, Daniel S. Fowler, Shadi A. Razak, Chris Matrakidis, Hu Yuan, Andrew Lord

“…Future communications systems offer an opportunity to integrate Quantum Key Distribution (QKD) into vehicular environments, protecting against advances in quantum computation that render many of the classical algorithms that underpin Public Key Infrastructure obsolete. …”
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Optical modulation of coherent phonon emission in optomechanical cavities by Jeremie Maire, Guillermo Arregui, Nestor E. Capuj, Martin F. Colombano, Amadeu Griol, Alejandro Martinez, Clivia M. Sotomayor-Torres, Daniel Navarro-Urrios

“…Optomechanical (OM) structures are well suited to study photon-phonon interactions, and they also turn out to be potential building blocks for phononic circuits and quantum computing. In phononic circuits, in which information is carried and processed by phonons, OM structures could be used as interfaces to photons and electrons thanks to their excellent coupling efficiency. …”
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Group Key Management in Internet of Things: A Systematic Literature Review by Fouzia Samiullah, Ming-Lee Gan, Sedat Akleylek, Y. Aun

“…In addition, most of the existing GKM schemes are dependent on public-key cryptography which are vulnerable to quantum computers. This SLR evaluates 48 proposals identified in IEEE Xplore, Springer Link, MDPI, ScienceDirect, Scopus, and Hindawi databases between 2013 and 2023. …”
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Interference Measurements of Non-Abelian e/4 & Abelian e/2 Quasiparticle Braiding by R. L. Willett, K. Shtengel, C. Nayak, L. N. Pfeiffer, Y. J. Chung, M. L. Peabody, K. W. Baldwin, K. W. West

“…Taken together, these results constitute new evidence for the non-Abelian nature of e/4 quasiparticles; the observed lifetime of their combined fermion parity further strengthens the case for their utility for topological quantum computation.…”
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Surface Topological Plexcitons: Strong Coupling in a Bi₂Se₃ Topological Insulator Nanoparticle-Quantum Dot Molecule by George Kountouris, Vassilios Yannopapas

“…These results can be useful for exploring exotic phases of matter, furthering research in topological insulator plasmonics, as well as for applications in the far-infrared and quantum computing.…”
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Uncovering anisotropic effects of electric high-moment dipoles on the tunneling current in $$\delta$$ δ -layer tunnel junctions by Juan P. Mendez, Denis Mamaluy

“…Abstract The precise positioning of dopants in semiconductors using scanning tunneling microscopes has led to the development of planar dopant-based devices, also known as $$\delta$$ δ layer-based devices, facilitating the exploration of new concepts in classical and quantum computing. Recently, it has been shown that two distinct conductivity regimes (low- and high-bias regimes) exist in $$\delta$$ δ -layer tunnel junctions due to the presence of quasi-discrete and continuous states in the conduction band of $$\delta$$ δ -layer systems. …”
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Large composite fermion effective mass at filling factor 5/2 by M. Petrescu, Z. Berkson-Korenberg, Sujatha Vijayakrishnan, K. W. West, L. N. Pfeiffer, G. Gervais

“…Abstract The 5/2 fractional quantum Hall effect in the second Landau level of extremely clean two-dimensional electron gases has attracted much attention due to its topological order predicted to host quasiparticles that obey non-Abelian quantum statistics and could serve as a basis for fault-tolerant quantum computations. While previous works have establish the Fermi liquid (FL) nature of its putative composite fermion (CF) normal phase, little is known regarding its thermodynamics properties and as a result its effective mass is entirely unknown. …”
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Microcontroller-Optimized Measurement Electronics for Coherent Control Applications of NV Centers by Dennis Stiegekötter, Jens Pogorzelski, Ludwig Horsthemke, Frederik Hoffmann, Markus Gregor, Peter Glösekötter

“…Long coherence times at room temperature make the NV center a promising candidate for quantum sensors and quantum computers. The necessary coherent control of the electron spin triplet in the ground state requires microwave <inline-formula><math xmlns="http://www.w3.org/1998/Math/MathML" display="inline"><semantics><mi>π</mi></semantics></math></inline-formula> pulses in the nanosecond range, obtained from the Rabi oscillation of the m_S spin states of the magnetic resonances of the NV centers. …”
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Quantum-enhanced mean value estimation via adaptive measurement by Kaito Wada, Kazuma Fukuchi, Naoki Yamamoto

“…Quantum-enhanced (i.e., higher performance by quantum effects than any classical methods) mean value estimation of observables is a fundamental task in various quantum technologies; in particular, it is an essential subroutine in quantum computing algorithms. Notably, the quantum estimation theory identifies the ultimate precision of such an estimator, which is referred to as the quantum Cramér-Rao (QCR) lower bound or equivalently the inverse of the quantum Fisher information. …”
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Sharing Privacy Protected and Statistically Sound Clinical Research Data Using Outsourced Data Storage by Geontae Noh, Ji Young Chun, Ik Rae Jeong

“…Since clinical data must remain private beyond a patient’s lifetime, we take advantage of lattice-based homomorphic encryption to guarantee long-term security against quantum computing attacks. Using lattice-based homomorphic encryption, we design an aggregation protocol that aggregates outsourced ciphertexts under distinct public keys. …”
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Towards large-scale quantum optimization solvers with few qubits by Marco Sciorilli, Lucas Borges, Taylor L. Patti, Diego García-Martín, Giancarlo Camilo, Anima Anandkumar, Leandro Aolita

“…Abstract Quantum computers hold the promise of more efficient combinatorial optimization solvers, which could be game-changing for a broad range of applications. …”
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Transferable room-temperature single-photon emitters in hexagonal boron nitride grown by molecular beam epitaxy by Chao Lyu, Fang Liu, Zhihao Zang, Tingting Wang, Yanping Li, Xiaolong Xu, Xinqiang Wang, Yu Ye

“…The solid-state single-photon source is the core of applications such as quantum cryptography, quantum sensing, and quantum computing. Recently, the point defects in two-dimensional (2D) hexagonal boron nitride (h-BN) have become excellent candidates for next-generation single-photon sources due to their chemical and physical stability and ultra-high brightness at room temperature. …”
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A surrogate model of sigma profile and COSMOSAC activity coefficient predictions of using transformer with SMILES input by Jia-Lin Kang, Chen-Tse Chiu, Jau Shiue Huang, David Shan-Hill Wong

“…Since Sigma profile is a unique function of molecular structure, it is desirable that they can be obtained using a surrogate model of the quantum computation with a molecular description as input. …”
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