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2018Quantum Computing in the NISQ era and beyondJ. Preskill · QuantumNoisy Intermediate-Scale Quantum (NISQ) technology will be available in the near future, and the 100-qubit quantum computer will not change the world right away - but it should be regarded as a significant step toward the more powerful quantum technologies of the future.9406 citationsopen access2023Evidence for the utility of quantum computing before fault toleranceYoungseok Kim, A. Eddins, Sajant Anand et al. · NatureExperiments on a noisy 127-qubit superconducting quantum processor are reported and the accurate measurement of expectation values beyond the reach of current brute-force classical computation are reported, demonstrating evidence for the utility of quantum computing before fault tolerance.1316 citationsopen access2024Quantum computing with QiskitAli Javadi-Abhari, Matthew Treinish, Kevin Krsulich et al. · arXiv.orgAn end-to-end workflow for solving a problem in condensed matter physics on a quantum computer that serves to highlight some of Qiskit's capabilities, for example the representation and optimization of circuits at various abstraction levels, its scalability and retargetability to new gates, and the use of quantum-classical computations via dynamic circuits.907 citationsopen access2025Tensor networks for quantum computingA. Berezutskii, Atithi Acharya, R. Ellerbrock et al. · Nature Reviews PhysicsThe diverse applications of tensor networks are discussed to demonstrate that they are an important instrument for quantum computing, including simulation of quantum computation, quantum circuit synthesis, quantum error correction and mitigation, and quantum machine learning.52 citationsopen access2024A manufacturable platform for photonic quantum computingKoen Avishai Dylan Damien Stanley Ben Hugo Geoff Gabrie Alexander Benyamini Black Bonneau Burgos Burridge , Koen Alexander, A. Benyamini et al. · Nature270 citationsopen access2024Barren plateaus in variational quantum computingMartín Larocca, Supanut Thanasilp, Samson Wang et al. · Nature Reviews PhysicsThe latest understandings of barren plateaus are summarized, indicating its causes, architecture that will suffer from this phenomenon, and discusses strategies that can — and cannot — avoid it.536 citationsopen access2024Distributed quantum computing across an optical network linkD. Main, P. Drmota, D. P. Nadlinger et al. · NatureThe distribution of quantum computations is demonstrated between two photonically interconnected trapped-ion modules, using repeatable, deterministic teleported controlled-Z gates to perform Grover’s search algorithm.244 citationsopen access2024A versatile single-photon-based quantum computing platformN. Maring, Andreas Fyrillas, M. Pont et al. · Nature Photonics261 citationsopen access2024Review of Distributed Quantum Computing. From single QPU to High Performance Quantum ComputingDavid Barral, F. J. Cardama, G. Díaz et al. · Computer Science ReviewA comprehensive survey of the current state of the art in the distributed quantum computing field, exploring its foundational principles, landscape of achievements, challenges, and promising directions for further research is presented.143 citationsopen access2024Efficient Thermalization and Universal Quantum Computing with Quantum Gibbs SamplersC. Rouzé, Daniel Stilck França, Álvaro M. Alhambra · Symposium on the Theory of ComputingThis work proves that a recently introduced, efficiently implementable dissipative evolution thermalizes to the Gibbs state in time scaling polynomially or even logarithmically with system size at high enough temperatures for any Hamiltonian that satisfies a Lieb-Robinson bound, such as local Hamiltonians on a lattice.86 citationsopen access2024Evolution of Quantum Computing: Theoretical and Innovation Management Implications for Emerging Quantum IndustryM. Coccia, S. Roshani, M. Mosleh · IEEE transactions on engineering management74 citationsabstract only2024Quantum computing for nonlinear differential equations and turbulenceFelix Tennie, Sylvain Laizet, S. Lloyd et al. · Nature Reviews PhysicsA view on the future potential of quantum computing to enhance simulations of nonlinear systems such as turbulent flows and synergies between quantum algorithms for nonlinear equations and quantum hardware concepts that could bear fruit in the near to mid-term future are offered.61 citationsopen access2024A hybrid quantum computing pipeline for real world drug discoveryWeitang Li, Zhi Yin, Xiaoran Li et al. · Scientific ReportsThis work serves as a pioneering effort in benchmarking quantum computing against veritable scenarios encountered in drug design, especially the covalent bonding issue present in both of the case studies, thereby transitioning from theoretical models to tangible applications.71 citationsopen access2024The MQT Handbook : A Summary of Design Automation Tools and Software for Quantum ComputingRobert Wille, Lucas Berent, Tobias Forster et al. · 2024 IEEE International Conference on Quantum Software (QSW)The Munich Quantum Toolkit (MQT) is a collection of software tools for quantum computing developed by the Chair for Design Automation at the Technical University of Munich which explicitly utilizes this design automation expertise.75 citationsopen access2024Transforming Research with Quantum ComputingS. Gill, R. Buyya · Journal of Economy and TechnologyThis article delves into the recent quantum computing advancements and the potential opportunities made possible by quantum technology in the next few decades, and highlights software tools and platforms for quantum programming to unlock the power of computing and revolutionize the world.41 citationsopen access2024Quantum Computing in MedicineJames C. L. Chow · Medical ScienceThis review paper provides a detailed account of the current state of QC, with a particular focus on its applications within medicine, and explores fundamental concepts such as qubits, superposition, and entanglement.64 citationsabstract only2024Quantum Computing: Circuits, Algorithms, and ApplicationsMuhammad Ali Shafique, Arslan Munir, Imran Latif · IEEE AccessThe fundamentals of quantum computing are addressed and the development of quantum algorithms and their applications are discussed, with a focus on famous algorithms like Shor’s algorithm and Grover’s algorithm.55 citationsopen access2023Quantum Computing for High-Energy Physics: State of the Art and ChallengesA. D. Meglio, K. Jansen, I. Tavernelli et al. · PRX QuantumThe status of high-energy physics quantum computations are provided and examples of theoretical and experimental target benchmark applications, which can be addressed in the near future are given and resource estimates are provided for the examples given using error-mitigated quantum computing.280 citationsopen access2023Quantum computing for financeDylan Herman, Cody Googin, Xiaoyuan Liu et al. · Nature Reviews PhysicsThe classical techniques used by the financial industry is outlined and the potential advantages and limitations of quantum techniques are discussed, as well as challenges that physicists could help tackle.259 citationsopen access2022MQT Bench: Benchmarking Software and Design Automation Tools for Quantum ComputingNils Quetschlich, Lukas Burgholzer, R. Wille · QuantumBy comprising more than 70,000 benchmark circuits ranging from 2 to 130 qubits on four abstraction levels, MQT Bench presents a first step towards benchmarking different abstraction levels with a single benchmark suite to increase comparability, reproducibility, and transparency.257 citationsopen access2019Trapped-ion quantum computing: Progress and challengesC. Bruzewicz, J. Chiaverini, R. McConnell et al. · Applied Physics ReviewsThe state of the field is reviewed, covering the basics of how trapped ions are used for QC and their strengths and limitations as qubits and the outlook for trapped-ion QC is explored.1415 citationsopen access2022Distributed Quantum Computing: a SurveyM. Caleffi, M. Amoretti, Davide Ferrari et al. · Comput. NetworksThe aim of this survey is to provide the reader with an overview about the main challenges and open problems arising with distributed quantum computing, and with an easy access and guide towards the relevant literature and the prominent results from a computer/communications engineering perspective.330 citationsopen access2022The future of quantum computing with superconducting qubitsS. Bravyi, O. Dial, J. Gambetta et al. · Journal of Applied PhysicsHardware that exploits qubit connectivity in higher than 2D topologies to realize more efficient quantum error correcting codes, modular architectures for scaling QPUs and parallelizing workloads, and software that evolves to make the intricacies of the technology invisible to the users and realize the goal of ubiquitous, frictionless quantum computing are seen.351 citationsopen access2018Quantum Chemistry in the Age of Quantum Computing.Yudong Cao, J. Romero, J. Olson et al. · Chemical ReviewsThis Review provides an overview of the algorithms and results that are relevant for quantum chemistry and aims to help quantum chemists who seek to learn more about quantum computing and quantum computing researchers who would like to explore applications in quantum chemistry.1706 citationsopen access2023A Survey of Important Issues in Quantum Computing and CommunicationsZebo Yang, Maede Zolanvari, R. Jain · IEEE Communications Surveys and TutorialsThe key elements of a quantum Internet are categorized into four important issues, which are investigated in detail: a) quantum computers, b) quantum networks, c) quantum cryptography, and d) quantum machine learning.173 citationsopen access