Germanium-Vacancy Color Center in Diamond as a Non-invasive Temperature   Sensor

Jing-Wei Fan; Ivan Cojocaru; Joe Becker; Abdulrahman Alajlan; Sean; Blakley; Mohammadreza Rezaee; Anna Lyamkina; Yuri N. Palyanov; Yuri M.; Borzdov; Ya-Ping Yang; Aleksei Zheltikov; Phil Hemmer; Alexey V Akimov

arXiv:1709.00456·cond-mat.mtrl-sci·January 30, 2018

Germanium-Vacancy Color Center in Diamond as a Non-invasive Temperature Sensor

Jing-Wei Fan, Ivan Cojocaru, Joe Becker, Abdulrahman Alajlan, Sean, Blakley, Mohammadreza Rezaee, Anna Lyamkina, Yuri N. Palyanov, Yuri M., Borzdov, Ya-Ping Yang, Aleksei Zheltikov, Phil Hemmer, Alexey V Akimov

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TL;DR

This paper introduces a high-resolution, all-optical thermometry technique using GeV color centers in diamond, enabling non-invasive temperature measurements across a broad temperature range from near absolute zero to 1100 Kelvin.

Contribution

It demonstrates a novel all-optical thermometry method utilizing GeV centers in diamond, offering non-invasive and back-action-free temperature sensing.

Findings

01

Effective temperature measurement from a few Kelvin to 1100 Kelvin

02

High spatial resolution due to optical approach

03

Non-invasive and back-action-free sensing capability

Abstract

We present high-resolution, all-optical thermometry based on ensembles of GeV color center in diamond. Due to the unique properties of diamond, an all-optical approach using this method opens a way to produce non-invasive, back-action-free temperature measurements in a wide range of temperatures, from a few Kelvin to 1100 Kelvin.

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