Quantum sensors based on color centers in diamond

There is considered the quantum sensors and metrology as one of the important directions in the future quantum technologies development.

1. J.R. Maze. Nanoscale Magnetic Sensing with an Individual Electronic Spin in Diamond / J.R. Maze [et al.] // Nature. 2008. №455. Р. 644.

2. Y. Silani. Nuclear Quadrupole Resonance Spectroscopy with a Femtotesla Diamond Magnetometer / Y. Silani [et al.] // Sci Adv. 2023. №9. Р.21.

3. Y. Xie. A Hybrid Magnetometer towards Femtotesla Sensitivity under Ambient Conditions / Y. Xie [et al.] // Sci Bull (Beijing). 2021. №66. Р. 127.

4. D. Kim. A CMOS-Integrated Quantum Sensor Based on Nitrogen–Vacancy Centres / D. Kim [et al.] // Nat Electron. 2019. №2. Р. 284.

5. Y. Ninio. High-Sensitivity, High-Resolution Detection of Reactive Oxygen Species Concentration Using NV Centers / Y. Ninio [et al.] // ACS Photonics. 2021. №8. Р. 1917.

6. K. Xia. Nanometer-Precision Non-Local Deformation Reconstruction Using Nanodiamond Sensing / K. Xia [et al.] // Nature Communications. 2019. №10, Р. 1.

7. S. Blakley. Vectorial Magnetic Field Sensing with a Dual-Core Photonic-Crystal Fiber: Toward Fiber-Optic Stereomagnetometry / S. Blakley [et al.] // AIP Conference Proceedings. 2018 Vol. 1936 (American Institute of Physics Inc., 2018).

8. N. Aslam. Quantum Sensors for Biomedical Applications / N. Aslam [et al.] // Nature Reviews Physics. 2023. №5. Р. 157.

9. N. Arunkumar. Micron-Scale NV-NMR Spectroscopy with Signal Amplification by Reversible Exchange / N. Arunkumar [et al.] // PRX Quantum. 2021. №2. Р. 010305.

10. S.V. Bolshedvorskii. The Study of the Efficiency of Nitrogen to Nitrogen-Vacancy (NV)-Center Conversion in High-Nitrogen Content Samples, Physica Status Solidi (RRL) / S.V. Bolshedvorskii [et al.] // Rapid Research Letters. 2023. №17. Р. 2200415.

11. J. Geng. Dopant-Assisted Stabilization of Negatively Charged Single Nitrogen-Vacancy Centers in Phosphorus-Doped Diamond at Low Temperatures / J. Geng [et al.] // Cornell University. 2023. 2305.15160v1.

12. G. Wang. Sensing of Arbitrary-Frequency Fields Using a Quantum Mixer / G. Wang, Y.X. Liu, J.M. Schloss, S.T. Alsid, D.A. Braje, P. Cappellaro // Phys Rev. 2022. №12. Р. 021061.

13. S. Baum. Mineral Detection of Neutrinos and Dark Matter. A Whitepaper / S. Baum [et al.] // Physics of the Dark Universe. 2023. №41. Р. 101245.

14. Y.G. Ermakova. Thermogenetic Neurostimulation with Single-Cell Resolution / Y.G.Ermakova [et al.] // Nat Commun. 2017. №8. Р. 15362.

15. I.V. Fedotov. All-Optical Brain Thermometry in Freely Moving Animals / I.V. Fedotov, M.A. Solotenkov, M.S. Pochechuev, O.I. Ivashkina, S.Ya. Kilin, K.V. Anokhin, A.M. Zheltikov // ACS Photonics. 2020. №7. Р. 3353.

16. T. Wolf. Subpicotesla Diamond Magnetometry / T. Wolf, P. Neumann, K. Nakamura, H. Sumiya, T. Ohshima, J. Isoya, J. Wrachtrup // Phys Rev. 2015. №5. Р. 041001.

17. V.V. Soshenko. Nuclear Spin Gyroscope Based on the Nitrogen Vacancy Center in Diamond / V.V. Soshenko, S.V. Bolshedvorskii, O. Rubinas, V.N. Sorokin, A.N. Smolyaninov, V.V. Vorobyov, A.V. Akimov // Phys Rev Lett. 2021. №126. Р.197702.

18. P. Kapitanova. 3D Uniform Manipulation of NV Centers in Diamond Using a Dielectric Resonator Antenna / P. Kapitanova, V.V. Soshenko, V.V. Vorobyov, D. Dobrykh, S.V. Bolshedvorskii, V.N. Sorokin, A.V. Akimov // JETP Lett. 2018. №108. Р. 588.

19. J. Ebel. Dispersive Readout of Room-Temperature Ensemble Spin Sensors / J. Ebel, T. Joas, M. Schalk, P. Weinbrenner, A. Angerer, J. Majer, and F. Reinhard // Quantum Sci Technol. 2021. №6, 03LT01.

20. A. Wood. DC Magnetometry below the Ramsey Limit with Rapidly Rotating Diamonds / A. Wood, A. Stacey, A. Martin // Bulletin of the American Physical Society. 2023.