英文简介:
The scope of npj Quantum Information spans across all relevant disciplines, fields, approaches and levels and so considers outstanding work ranging from fundamental research to applications and technologies. Fields covered include, but are not limited to, quantum computing and quantum communication, including solid state and optical devices, superconducting circuits, atomic and ion trap systems, topological quantum computing, atomic defects in solids, hybrid quantum circuits, cavity quantum electrodynamics, superconducting resonators, optical cavities, mechanical systems, single photon sources and detectors, engineering approaches for scale-up, quantum metrology, quantum sensing, quantum control, quantum networks, quantum error correction, architectures and quantum algorithms.
中文简介:(来自Google、百度翻译)
npj量子信息的范围涵盖所有相关学科,领域,方法和水平,因此考虑了从基础研究到应用和技术的杰出工作。涵盖的领域包括但不限于量子计算和量子通信,包括固态和光学器件,超导电路,原子和离子阱系统,拓扑量子计算,固体中的原子缺陷,混合量子电路,腔量子电动力学,超导谐振器,光学腔,机械系统,单光子源和探测器,放大的工程方法,量子计量学,量子传感,量子控制,量子网络,量子误差校正,体系结构和量子算法。
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