Hyperfine clock transitions of bismuth donors in silicon detected by spin-dependent recombination

Mortemousque, P.A; Berger, S.; Sekiguchi, T.; Culan, C.; Elliman, Robert; Itoh, K.M.

Hyperfine clock transitions of bismuth donors in silicon detected by spin-dependent recombination

Date

2014

Authors

Mortemousque, P.A

Berger, S.

Sekiguchi, T.

Culan, C.

Elliman, Robert

Itoh, K.M.

Publisher

American Physical Society

Abstract

Bismuth donors ion-implanted in 28Si and natSi are studied using magnetic resonance spectroscopy based on spin-dependent recombination. The hyperfine clock transition, at which the linewidth is significantly narrowed, is observed for the bismuth donors. The experimental results are modeled quantitatively by molecular orbital theory for a coupled pair consisting of a bismuth donor and a spin-dependent recombination readout center, including the effect of hyperfine and Zeeman interactions.

URI

http://hdl.handle.net/1885/70320

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ANU Research Publications

Source

Physical Review B

Type

Journal article

Access Statement

Open Access

DOI

10.1103/PhysRevB.89.155202

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Hyperfine clock transitions of bismuth donors in silicon detected by spin-dependent recombination

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