E. Taskova, E. Alipieva, N. Stankova, V. Ranev, C. Andreeva, D. V. Brazhnikov, “Application of all-optical magnetometry for detection of weak magnetic fields generated by a current-carrying metallised track”, Kvantovaya Elektronika, 2022, Volume 52, Number 6,Pages <nobr>544

This article is cited in 2 papers

Physics of ultracold atoms

Application of all-optical magnetometry for detection of weak magnetic fields generated by a current-carrying metallised track

E. Taskova^a, E. Alipieva^a, N. Stankova^a, V. Ranev^a, C. Andreeva^ab, D. V. Brazhnikov^cd

^a Institute of Electronics, Bulgarian Academy of Sciences, boul. Tzarigradsko shosse 72, Sofia, Bulgaria
^b Faculty of Physics, Sofia University, boul. J. Bourchier 5, Sofia, Bulgaria
^c Institute of Laser Physics, Siberian Branch, Russian Academy of Sciences, Novosibirsk
^d Novosibirsk State University

Abstract: A pump – probe configuration is used to register zerofield level-crossing resonances in Rb vapour contained in a cell with antirelaxation coated walls. The scheme is applied to detect the weak magnetic field generated by a current-carrying micro-wire (metallised track). Such micro-wires can be employed in neural prostheses and hybrid bionic systems as micro-electrode arrays. More specifically, the operation of such live micro-wire belonging to a neuronal – electrode interface is demonstrated, which indicates the possibility of remote testing of the operation (conducting/nonconducting) of micro-wires for in neural implants.

Keywords: level-crossing resonances, electromagnetically induced absorption, atomic magnetometry, quantum sensors, microelectrode arrays, PDMS.

Received: 14.03.2022
Revised: 29.04.2022
Accepted: 29.04.2022