A broadband thin-film SQUID magnetometer pumped at 10 GHz

Author

Pierce, J.M. ; Opfer, J.E. ; Rorden, L.H.

Author_Institution

Develco, Inc., Mountain View, California

Volume

10

Issue

3

fYear

1974

fDate

9/1/1974 12:00:00 AM

Firstpage

599

Lastpage

602

Abstract

A new microwave SQUID magnetometer is described which employs a thin-film sensor operable at 4.2 K. Both sensitivity and bandwidth are substantially improved over comparable SQUIDS pumped at RF. Flux sensitivity of $\\Phi _{o}/100,000$ rms Hz^-1/2has been attained. The corresponding energy sensitivity is $E_{\\min}=L_{i}I_{\\min}^{2}/2 = 2\\times10^{-30}$ J/Hz. measured at the terminals of the input coil. It is argued that this energy sensitivity is the most useful basis on which to compare SQUID magnetometers which differ in inductance. With a 10 cm diam pickup loop, the magnetic field sensitivity is approximately $3\\times10^{-12}$ G/Hz^1/2. Signal bandwidths from dc to beyond 100 MHz are observed, limited only by the input circuit. Feedback loop bandwidths greater than one MHz have been achieved, which allow highly linear operation at frequencies greater than 100 kHz and slew rates approaching $10^{7} \\Phi _{o}$ /Second.

Keywords

Magnetic films/devices; Magnetometers; Superconducting devices; Bandwidth; Energy measurement; Magnetic field measurement; Magnetic sensors; Microwave sensors; Radio frequency; SQUID magnetometers; Sensor phenomena and characterization; Thin film sensors; Transistors;

fLanguage

English

Journal_Title

Magnetics, IEEE Transactions on

Publisher

ieee

ISSN

0018-9464

Type

jour

DOI

10.1109/TMAG.1974.1058427

Filename

1058427