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Autori principali: Kuan, Johnathan, Fuchs, Gregory D.
Natura: Preprint
Pubblicazione: 2025
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Accesso online:https://arxiv.org/abs/2501.19235
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author Kuan, Johnathan
Fuchs, Gregory D.
author_facet Kuan, Johnathan
Fuchs, Gregory D.
contents The nitrogen-vacancy (NV) center is an emerging platform for constructing inertial sensors. Its native nitrogen spin can serve as a gyroscope using Ramsey interferometry protocols. The sensitivities of these nuclear-spin-based NV gyroscopes are limited by the phase coherence time of the nuclear spin, which is in turn limited by the $T_1$ of the NV center's electron spin. There is an active research effort to decouple the nuclear spin from the electron spin and other sources of decoherence to extend the phase coherence time past the NV center electron $T_1$. However, this presents an associated challenge -- how to readout of the nuclear spin ensemble if the electronic spins have relaxed into a thermal state. We introduce an optical repump pulse to repolarize electron spins and investigate its effect on the readout of nuclear spins in this regime. We find for ensemble-based sensors, our readout protocol has around a six-fold improvement in sensitivity around the excited state anti-level crossing at 500 G compared to low fields (200 G), despite the presence of deleterious spin flip-flop dynamics in the excited state.
format Preprint
id arxiv_https___arxiv_org_abs_2501_19235
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Optical Readout of Coherent Nuclear Spins Beyond the NV Center Electron T$_1$
Kuan, Johnathan
Fuchs, Gregory D.
Quantum Physics
The nitrogen-vacancy (NV) center is an emerging platform for constructing inertial sensors. Its native nitrogen spin can serve as a gyroscope using Ramsey interferometry protocols. The sensitivities of these nuclear-spin-based NV gyroscopes are limited by the phase coherence time of the nuclear spin, which is in turn limited by the $T_1$ of the NV center's electron spin. There is an active research effort to decouple the nuclear spin from the electron spin and other sources of decoherence to extend the phase coherence time past the NV center electron $T_1$. However, this presents an associated challenge -- how to readout of the nuclear spin ensemble if the electronic spins have relaxed into a thermal state. We introduce an optical repump pulse to repolarize electron spins and investigate its effect on the readout of nuclear spins in this regime. We find for ensemble-based sensors, our readout protocol has around a six-fold improvement in sensitivity around the excited state anti-level crossing at 500 G compared to low fields (200 G), despite the presence of deleterious spin flip-flop dynamics in the excited state.
title Optical Readout of Coherent Nuclear Spins Beyond the NV Center Electron T$_1$
topic Quantum Physics
url https://arxiv.org/abs/2501.19235