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Literature DB >> 23004309

Modeling flux noise in SQUIDs due to hyperfine interactions.

Abstract

Recent experiments implicate spins on the surface of metals as the source of flux noise in superconducting quantum interference devices and indicate that these spins are able to relax without conserving total magnetization. We present a model of 1/f flux noise in which electron spins on the surface of metals can relax via hyperfine interactions. Our results indicate that flux noise would be significantly reduced in superconducting materials where the most abundant isotopes do not have nuclear moments, such as zinc and lead.

Year: 2012 PMID： 23004309 DOI： 10.1103/PhysRevLett.108.247001

Source DB: PubMed Journal: Phys Rev Lett ISSN： 0031-9007 Impact factor: 9.161

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Cited

2 in total

1. Magnetic flux noise in superconducting qubits and the gap states continuum.

Authors: Dominik Szczęśniak; Sabre Kais
Journal: Sci Rep Date: 2021-01-19 Impact factor: 4.379

2. On the nature of decoherence in quantum circuits: Revealing the structural motif of the surface radicals in α-Al₂O₃.

Authors: Sun Un; Sebastian de Graaf; Patrice Bertet; Sergey Kubatkin; Andrey Danilov
Journal: Sci Adv Date: 2022-04-06 Impact factor: 14.136

2 in total

Modeling flux noise in SQUIDs due to hyperfine interactions.

1. Magnetic flux noise in superconducting qubits and the gap states continuum.

2. On the nature of decoherence in quantum circuits: Revealing the structural motif of the surface radicals in α-Al2O3.

2. On the nature of decoherence in quantum circuits: Revealing the structural motif of the surface radicals in α-Al₂O₃.