Using materials for quasiparticle engineering

Materials for Quantum Technology Pub Date : 2021-07-20 DOI:10.1088/2633-4356/ac4a75
G. Catelani, J. Pekola
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引用次数: 17

Abstract

The fundamental excitations in superconductors – Bogoliubov quasiparticles – can be either a resource or a liability in superconducting devices: they are what enables photon detection in microwave kinetic inductance detectors, but they are a source of errors in qubits and electron pumps. To improve operation of the latter devices, ways to mitigate quasiparticle effects have been devised; in particular, combining different materials quasiparticles can be trapped where they do no harm and their generation can be impeded. We review recent developments in these mitigation efforts and discuss open questions.
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使用准粒子工程材料
超导体中的基本激发波格里乌波夫准粒子在超导器件中既可以是一种资源,也可以是一种负担:它们使微波动力学电感探测器中的光子探测成为可能,但它们是量子比特和电子泵中的误差来源。为了改善后一种装置的操作,设计了减轻准粒子效应的方法;特别地,结合不同的材料,准粒子可以被困在没有危害的地方,并且可以阻止它们的产生。我们回顾了这些缓解努力的最新进展,并讨论了悬而未决的问题。
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Materials for Quantum Technology
Materials for Quantum Technology
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