DC-SQUID based displacement sensor for a Mossbauer red-shift experiment

Author

Ikonen, E. ; Seppa, H. ; Potzel, W. ; Schafer, C.

Author_Institution

Metrol. Res. Inst., Helsinki Univ. of Technol., Espoo, Finland

fYear

1990

fDate

11-14 June 1990

Firstpage

204

Lastpage

205

Abstract

A superconducting quantum interference device (SQUID)-based displacement sensor with resolution up to 3*10/sup -15/ m/ square root Hz in the frequency band of 20 Hz-15 kHz is reported. The sensor monitors the Doppler modulation of gamma radiation in a gravitational red-shift experiment using the 93-keV Mossbauer resonance of /sup 67/Zn. Test results for the SQUID and the PZT transducer used in the experiment are presented. The relative statistical uncertainty in the determination of the gravitational red shift is about 3% for a one-week experiment. Preliminary results obtained with the displacement sensor show that the systematic uncertainties that are related to the Doppler motion generated by the velocity drive are negligible compared to the statistical uncertainty.<>

Keywords

Doppler effect; Mossbauer effect; SQUIDs; displacement measurement; electric sensing devices; gravitational experiments; gravitational red shift; statistical analysis; superconducting junction devices; /sup 67/Zn; 93 keV; DC-SQUID; Doppler modulation; Doppler motion; Mossbauer red-shift experiment; PZT transducer; displacement sensor; gamma radiation; gravitational red shift; relative statistical uncertainty; superconducting quantum interference device; Frequency; Gamma ray detectors; Gamma rays; Interference; Resonance; SQUIDs; Superconducting devices; Testing; Uncertainty; Zinc;

fLanguage

English

Publisher

ieee

Conference_Titel

Precision Electromagnetic Measurements, 1990. CPEM '90 Digest., Conference on

Conference_Location

Ottawa, Ontario, Canada

Type

conf

DOI

10.1109/CPEM.1990.109990

Filename

109990