A 1-MHz low noise preamplifier based on double relaxation oscillation SQUIDs

Abstract

A low noise and wideband preamplifier based on Double Relaxation Oscillation Superconducting Quantum Interference Devices (DROSs) has been realized. A major advantage of a DROS is that it can be operated in a simple flux locked loop using direct voltage readout without flux modulation. So far, biomagnetic measurements performed in our group required only a limited bandwidth smaller than 100 kHz. Other applications, like for instance readout of radiation and particle detectors, demand a larger bandwidth. In this paper, we will discuss our efforts aimed at increasing the operational bandwidth of a DROS in flux locked loop. Presently, a flux locked loop scheme with a -3 dB bandwidth of 1.45 MHz has been built. With this system a white flux noise of 8 p@ddHz was measured with a l/f-corner frequency of 10 Hz. The slew rate was 2.5.105 @ds. With the mutual input inductance of 6.7 nH, an input current noise of the preamplifier of 2.5 pA/dHz was found and a current slew rate of 80 Ms. We will discuss the suitability of our DROS-based preamplifier for readout of cryogenic particle detectors based on superconducting tunnel junctions.