High-Tc superconducting detector for highly-sensitive microwave magnetometry

Abstract

We have fabricated arrays of High-Tc Superconducting Quantum Interference Devices (SQUIDs) with randomly distributed loop sizes as sensitive antennas for Radio-Frequency (RF) waves. These sub-wavelength size devices known as Superconducting Quantum Interference Filters (SQIFs) detect the magnetic component of the electromagnetic field. We use a scalable ion irradiation technique to pattern the circuits and engineer the Josephson junctions needed to make SQUIDs. Here we report on a 300 SQUIDs series array with loops area ranging from 6 to 60\ μ m2, folded in a meander line covering a 3.5\ mm× 8\ mm substrate area, made out of a 150-nm-thick YBa2Cu3O7 film. Operating at a temperature T=66\ K in a un-shielded magnetic environment, under low DC bias current (I=60\ μ A) and DC magnetic field (B=3\ μ T), this SQIF can detect a magnetic field of a few pT at a frequency of 1.125\ GHz, which corresponds to a sensitivity of a few hundreds of fT/Hz, and shows linear response over 7 decades in RF power. This work is a promising approach for the realization of low dissipative sub-wavelength GHz magnetometers.