Results 281 to 290 of about 39,412 (312)
An efficient tripartite remote state preparation scheme with noise analysis. [PDF]
Sci RepBolokian M, Orouji AA, Houshmand M.
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QuPepFold: A python package for hybrid quantum-classical protein folding simulations with CVaR-optimized VQE. [PDF]
PLoS OneUttarkar A +3 more
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Cryogenic performance evaluation of commercial SP4T microelectromechanical switch for quantum computing applications. [PDF]
Microsyst NanoengLee YB +5 more
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2023
AbstractIn this chapter, we describe the circuit model of quantum computation, focusing on the initialization of a set of qubits, their unitary evolution, and final projective measurement. We outline Di Vincenzo’s criteria for constructing a functional quantum computer. We describe single-qubit gates and measurements, and we present two-qubit gates. We
Riccardo Manenti, Mario Motta
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AbstractIn this chapter, we describe the circuit model of quantum computation, focusing on the initialization of a set of qubits, their unitary evolution, and final projective measurement. We outline Di Vincenzo’s criteria for constructing a functional quantum computer. We describe single-qubit gates and measurements, and we present two-qubit gates. We
Riccardo Manenti, Mario Motta
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QUANTUM-STATISTICAL SIMULATIONS FOR QUANTUM CIRCUITS
International Journal of Modern Physics C, 2002Using a Hubbard–Stratonovich like decomposition technique, we implemented simulations for the quantum circuits of Simon's algorithm for the detection of the periodicity of a function and Shor's algorithm for the factoring of prime numbers on a classical computer.
K. Fischer +3 more
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Quantum Gates and Quantum Circuits
2022Abstract Quantum gates, equivalent to logic gates, operate on and modify the state vectors. Alice and Bob explain what quantum gates do and illustrate their action on states describing a single qubit. These gates include the NOT gate, the Pauli gates, and the Hadamard gate.
Alice Flarend, Bob Hilborn
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IEEE Journal of Selected Topics in Quantum Electronics, 2012
Interactions between light and matter can be dramatically modified by concentrating light into a small volume for a long period of time. Gaining control over such interaction is critical for realizing many schemes for classical and quantum information processing, including optical and quantum computing, quantum cryptography, and metrology and sensing ...
N. P. de Leon, M. D. Lukin, H. Park
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Interactions between light and matter can be dramatically modified by concentrating light into a small volume for a long period of time. Gaining control over such interaction is critical for realizing many schemes for classical and quantum information processing, including optical and quantum computing, quantum cryptography, and metrology and sensing ...
N. P. de Leon, M. D. Lukin, H. Park
openaire +1 more source
Quantum guidelines for solid-state spin defects
Nature Reviews Materials, 2021Gary Wolfowicz +2 more
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Weyl, Dirac and high-fold chiral fermions in topological quantum matter
Nature Reviews Materials, 2021M Zahid Hasan +2 more
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