Single atom-scale diamond defect allows a large Aharonov-Casher phase

Maclaurin, D; Greentree, Andrew; Cole, Jared; Hollenberg, L

Single atom-scale diamond defect allows a large Aharonov-Casher phase

journal contribution

posted on 2024-11-01, 10:22 authored by D Maclaurin, Andrew GreentreeAndrew Greentree, Jared ColeJared Cole, L Hollenberg

We propose an experiment that would produce and measure a large Aharonov-Casher (AC) phase in a solid-state system under macroscopic motion. A diamond crystal is mounted on a spinning disk in the presence of a uniform electric field. Internal magnetic states of a single nitrogen-vacancy (N-V) defect, replacing interferometer trajectories, are coherently controlled by microwave pulses. The AC phase shift is manifested as a relative phase, of up to 17 radians, between components of a superposition of magnetic substates, which is two orders of magnitude larger than that measured in any other atom-scale quantum system.

History

Journal

Physical Review A (Atomic, Molecular and Optical Physics)

Volume

80

Issue

4

Start page

1

End page

5

Total pages

5

Publisher

American Physical Society

Place published

United States

Language

English

Copyright

Former Identifier

2006028286

Esploro creation date

2020-06-22

Fedora creation date

2011-11-14

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Keywords

AC phase Aharonov-Casher phase Diamond crystals Diamond defects Magnetic state Microwave pulse Orders of magnitude Quantum system Relative phase Single atoms Solid-state system Spinning disks Uniform electric fields

Single atom-scale diamond defect allows a large Aharonov-Casher phase

History

Journal

Volume

Issue

Start page

End page

Total pages

Publisher

Place published

Language

Copyright

Former Identifier

Esploro creation date

Fedora creation date

Usage metrics

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Keywords

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