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Dry demagnetization cryostat for sub-millikelvin helium experiments: refrigeration and thermometry

Published 31 Jul 2014 in physics.ins-det and cond-mat.other | (1407.8335v1)

Abstract: We demonstrate successful "dry" refrigeration of quantum fluids down to $T=0.16$\,mK by using copper nuclear demagnetization stage that is pre-cooled by a pulse-tube-based dilution refrigerator. This type of refrigeration delivers a flexible and simple sub-mK solution to a variety of needs including experiments with superfluid $3$He. Our central design principle was to eliminate relative vibrations between the high-field magnet and the nuclear refrigeration stage, which resulted in the minimum heat leak of $Q=4.4$\,nW obtained in field of 35\,mT. For thermometry, we employed a quartz tuning fork immersed into liquid $3$He. We show that the fork oscillator can be considered as self-calibrating in superfluid $3$He at the crossover point from hydrodynamic into ballistic quasiparticle regime.

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