Title :
A 37 channel DC SQUID magnetometer system
Author :
Koch, H. ; Cantor, R. ; Drung, D. ; Erne, S.N. ; Matthies, K.P. ; Peters, M.. ; Ryhanen, T. ; Scheer, H.J. ; Hahlbohm, H.D.
Author_Institution :
Physikalisch-Tech. Bundesanstalt, Inst. Berlin, West Germany
fDate :
3/1/1991 12:00:00 AM
Abstract :
A 37-channel DC SQUID magnetometer system has been built for biomagnetic studies. The SQUID loop of each magnetometer serves as the active sensing element, thereby eliminating the need for flux coupling circuits. The magnetometers are located ≃3 cm above the outer dewar bottom. The SQUIDs are directly coupled to a highly simplified readout electronics using only five wires per channel; no helium temperature impedance matching circuits are required. Each channel can be independently inserted into or removed from the dewar. Using a novel compensation technique, the system white and 1-Hz flux density noise values are typically 5 fT/√Hz and 10 fT/√Hz, respectively, including the noise contribution of the in-house fabricated dewar (about 2 fT/√Hz at 100 Hz) and the magnetically shielded room (about 1 fT/√Hz at 100 Hz). In addition, it is shown that due to the large dynamic range and high slew rate of the sensors it is possible to electronically form a gradiometric configuration that can be exploited in order to improve the signal-to-noise ratio
Keywords :
SQUIDs; biomagnetism; magnetometers; patient diagnosis; DC SQUID magnetometer system; active sensing element; biomagnetic studies; compensation technique; dynamic range; five wires per channel; flux density noise; gradiometric configuration; magnetically shielded room; multichannel magnetometer system; readout electronics; signal-to-noise ratio; slew rate; white noise; Biomagnetics; Circuit noise; Coupling circuits; Helium; Impedance matching; Magnetic noise; Readout electronics; SQUID magnetometers; Temperature sensors; Wires;
Journal_Title :
Magnetics, IEEE Transactions on
