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2020 IEEE Photonics Conference (IPC), 2019
At the core of most quantum technologies, including quantum networks and quantum simulators, is the development of homogeneous, long lived qubits with excellent optical interfaces, and the development of high efficiency and robust optical interconnects for such qubits.
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At the core of most quantum technologies, including quantum networks and quantum simulators, is the development of homogeneous, long lived qubits with excellent optical interfaces, and the development of high efficiency and robust optical interconnects for such qubits.
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Physical Review A, 2001
In many candidate designs of solid-state quantum computers, interactions between qubits are limited to a small number of neighboring qubits. Taking into account this limitation we describe how quantum algorithms can be executed efficiently on these designs. We illustrate our results with the quantum Fourier transform for which linear depth networks are
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In many candidate designs of solid-state quantum computers, interactions between qubits are limited to a small number of neighboring qubits. Taking into account this limitation we describe how quantum algorithms can be executed efficiently on these designs. We illustrate our results with the quantum Fourier transform for which linear depth networks are
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2021
We have our first serious encounter with the idea that SICs are extremal, and indeed optimal, quantum measurements. After presenting a thought-experiment that makes clear the meaning of the irreducible difference between classical and quantum, we learn how to construct SICs as group orbits, and we meet the sporadics up close.
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We have our first serious encounter with the idea that SICs are extremal, and indeed optimal, quantum measurements. After presenting a thought-experiment that makes clear the meaning of the irreducible difference between classical and quantum, we learn how to construct SICs as group orbits, and we meet the sporadics up close.
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Quantum guidelines for solid-state spin defects
Nature Reviews Materials, 2021Gary Wolfowicz +2 more
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Quantum Optimization Algorithms
2020This chapter covers an overview of quantum optimization algorithms. You will see how quantum optimization is used in real life. Code examples are presented for the quantum optimization applications.
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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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InP colloidal quantum dots for visible and near-infrared photonics
Nature Reviews Materials, 2023Guilherme Almeida
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The germanium quantum information route
Nature Reviews Materials, 2020Giordano Scappucci +2 more
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Materials challenges for trapped-ion quantum computers
Nature Reviews Materials, 2021Kenneth R Brown +2 more
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Emerging ultrafast techniques for studying quantum materials
Nature Reviews Materials, 2023Alfred Zong, Michael Zürch
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