Relaxation-oscillation-driven DC SQUIDs

Simple and reliable relaxation-oscillation (RO)-driven DC SQUIDs (superconducting quantum interference devices) have been fabricated with a flux-to-voltage factor H up to 1 mV/Φ₀ and internal energy sensitivity E_v of (4±1) × 10^-31 J/Hz at frequencies above 10 Hz and 1×10 ^-29 (1 Hz/f) J/Hz at lower frequencies. Supplied with a 50-μm-wire 20-turn spiral input coil and a 6-cm² pickup loop, such SQUIDs provided magnetic field sensitivity close to (6±3)×10^-15 T/Hz^1/2 above 10 Hz. The dynamic range of the magnetometers was close to 1.5×10⁷ Hz^1/2 above 10 Hz. The maximum slew rate was about 10 μT/s at 0.1 kHz. Successful records of Earth-ionosphere magnetic resonances have been obtained with these magnetometers housed in a stainless steel transport dewar. A balanced version of the RO-driven DC SQUID is suggested with improved H and E_v