Quantum-Classical Autoencoder Architectures for End-to-End Radio Communication by Zsolt I. Tabi, Bence Bako, Daniel T. R. Nagy, Peter Vaderna, Zsofia Kallus, Peter Haga, Zoltan Zimboras

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Temporal fusion of entangled resource states from a quantum emitter by Yijian Meng, Carlos F. D. Faurby, Ming Lai Chan, Rasmus B. Nielsen, Patrik I. Sund, Zhe Liu, Ying Wang, Nikolai Bart, Andreas D. Wieck, Arne Ludwig, Leonardo Midolo, Anders S. Sørensen, Stefano Paesani, Peter Lodahl

“…Abstract Fusion-based photonic quantum computing architectures rely on two primitives: i) near-deterministic generation and control of constant-size entangled states and ii) probabilistic entangling measurements (photonic fusion gates) between entangled states. …”
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Realization of a one-dimensional topological insulator in ultrathin germanene nanoribbons by Dennis J. Klaassen, Lumen Eek, Alexander N. Rudenko, Esra D. van ’t Westende, Carolien Castenmiller, Zhiguo Zhang, Paul L. de Boeij, Arie van Houselt, Motohiko Ezawa, Harold J. W. Zandvliet, Cristiane Morais Smith, Pantelis Bampoulis

“…Abstract Realizing a one-dimensional (1D) topological insulator and identifying the lower-dimensional limit of two-dimensional (2D) behavior are crucial steps toward developing high-density quantum state networks, advancing topological quantum computing, and exploring dimensionality effects in topological materials. …”
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Two-Step Quantum Search Algorithm for Solving Traveling Salesman Problems by Rei Sato, Cui Gordon, Kazuhiro Saito, Hideyuki Kawashima, Tetsuro Nikuni, Shohei Watabe

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Strain-induced bandgap engineering in 2D ψ-graphene materials: a first-principles study by Kamal Kumar, Nora H. de Leeuw, Jost Adam, Abhishek Kumar Mishra

“…This behavior offers opportunities for these materials in various vital applications in photodetectors, solar cells, LEDs, pressure and strain sensors, energy storage, and quantum computing. The mechanical strain tolerance of pristine and fully hydrogenated ψ-graphene is observed to be −17% to +17%, while for ψ-graphone, it lies within the strain span of −16% to +16%.…”
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System based approach to the design of tension sensing element made of modified diamond by S. V. Dianov, V. M. Novichkov

“…The main problem in the research of quantum processes is that researchers study the processes occurring in materials, but they do not indicate the ways in which quantum sensors and quantum computers are used in practical applications. This article explains how to form a measuring transformer that will be compatible with a quantum computer. …”
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Formation of the measuring channel for quantum diagnostic computer by S. V. Dianov, V. M. Novichkov

“…The main problem in the research of quantum processes is that researchers study the processes occurring in materials, but they do not indicate the ways in which quantum sensors and quantum computers are used in practical applications. This article explains how to form a measurement channel that will be compatible with a quantum computer, how to organize the input of information about the measured physical quantity into a quantum computer using a quantum sensor. …”
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Efficient implementation of post-quantum digital signatures on Raspberry Pi by Mahmood A. Al-Shareeda, Ahmed Abdul Hassan Ghadban, Ali Abdul Hadi Glass, Esam Mohamed Abdul Hadi, Mohammed Amin Almaiah

“…Abstract While quantum computing poses a threat to many classical cryptographic schemes such as RSA and ECC, the quest for quantum-resistant alternatives has seen rapid growth. …”
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Grating Coupler Design for Low-Cost Fabrication in Amorphous Silicon Photonic Integrated Circuits by Daniel Almeida, Paulo Lourenço, Alessandro Fantoni, João Costa, Manuela Vieira

“…Photonic circuits find applications in biomedicine, manufacturing, quantum computing and communications. Photonic waveguides are crucial components, typically having cross-section orders of magnitude inferior when compared with other photonic components (e.g., optical fibers, light sources and photodetectors). …”
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The Role of Smart Grid Technologies in Urban and Sustainable Energy Planning by Mohamed G. Moh Almihat, Josiah L. Munda

“…In addition, the review examines new trends like the utilization of AI and quantum computing to optimize energy, peer-to-peer energy trading, and climate resilient design before outlining a future research agenda focused on cybersecurity, decarbonization, and the inclusion of new technology. …”
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Laser assist quantum dot scattering with Gaussian potential by Rajendra Prasad Kurmi, Kishori Yadav, Anil Shrestha, Saddam Husain Dhobi

“…It has wide applications in quantum computing, nanophotonics, optoelectronics, precise quantum state manipulation, biosensing, medical imaging, and photovoltaics, where laser control enhances QD performance for improved efficiency and sensitivity. …”
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Orientation-selective spin-polarized edge states in monolayer NiI2 by Yu Wang, Xinlei Zhao, Li Yao, Huiru Liu, Peng Cheng, Yiqi Zhang, Baojie Feng, Fengjie Ma, Jin Zhao, Jiatao Sun, Kehui Wu, Lan Chen

“…Abstract Spin-polarized edge states in two-dimensional materials hold promise for spintronics and quantum computing applications. Constructing stable edge states by tailoring two-dimensional semiconductor materials with bulk-boundary correspondence is a feasible approach. …”
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AI-assisted hyper-dimensional broadband quantum memory with efficiency above 90% in warm atoms by Zeliang Wu, Jinxian Guo, Zhifei Yu, Wenfeng Huang, Chun-Hua Yuan, Weiping Zhang, L. Q. Chen

“…This achievement provides a crucial foundation for future quantum communication and quantum computing.…”
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Verifiable measurement-based quantum random sampling with trapped ions by Martin Ringbauer, Marcel Hinsche, Thomas Feldker, Paul K. Faehrmann, Juani Bermejo-Vega, Claire L. Edmunds, Lukas Postler, Roman Stricker, Christian D. Marciniak, Michael Meth, Ivan Pogorelov, Rainer Blatt, Philipp Schindler, Jens Eisert, Thomas Monz, Dominik Hangleiter

“…One way to demonstrate the advantage of quantum computation is through quantum random sampling performed on quantum computing devices. …”
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Quantum Classical Algorithm for the Study of Phase Transitions in the Hubbard Model via Dynamical Mean-Field Theory by Anshumitra Baul, Herbert Fotso, Hanna Terletska, Ka-Ming Tam, Juana Moreno

“…We present a workflow that synergizes quantum computing, many-body theory, and quantum machine learning (QML) for studying strongly correlated systems. …”
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Microgrid stability: A comprehensive review of challenges, trends, and emerging solutions by Nima Khosravi, Doğan Çelik, Hassan Bevrani, Salwa Echalih

“…Additionally, the review explores how edge and quantum computing mitigate limitations in centralized, decentralized, and distributed control architectures, addressing issues like single points of failure and scalability. …”
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Experimental composable key distribution using discrete-modulated continuous variable quantum cryptography by Adnan A. E. Hajomer, Florian Kanitschar, Nitin Jain, Michael Hentschel, Runjia Zhang, Norbert Lütkenhaus, Ulrik L. Andersen, Christoph Pacher, Tobias Gehring

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Passive and active suppression of transduced noise in silicon spin qubits by Jaemin Park, Hyeongyu Jang, Hanseo Sohn, Jonginn Yun, Younguk Song, Byungwoo Kang, Lucas E. A. Stehouwer, Davide Degli Esposti, Giordano Scappucci, Dohun Kim

“…Abstract Addressing and mitigating decoherence sources plays an essential role in the development of a scalable quantum computing system, which requires low gate errors to be consistently maintained throughout the circuit execution. …”
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FASQuiC: Flexible Architecture for Scalable Spin Qubit Control by Mathieu Toubeix, Eric Guthmuller, Adrian Evans, Antoine Faurie, Tristan Meunier

“…As scaling becomes a key issue for large-scale quantum computing, hardware control systems will become increasingly costly in resources. …”
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A Monte Carlo Tree Search approach to QAOA: finding a needle in the haystack by Andoni Agirre, Evert van Nieuwenburg, Matteo M Wauters

“…The search for quantum algorithms to tackle classical combinatorial optimization problems has long been one of the most attractive yet challenging research topics in quantum computing. In this context, variational quantum algorithms (VQAs) are a promising family of hybrid quantum–classical methods tailored to cope with the limited capability of near-term quantum hardware. …”
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