Superconducting aluminum heat switch with 3 nΩ equivalent resistance

Abstract: Superconducting heat switches with extremely low normal state resistances are needed for constructing continuous nuclear demagnetization refrigerators with high cooling power. Aluminum is a suitable superconductor for the heat switch because of its high Debye temperature and its commercial availability in high purity. We have constructed a high quality Al heat switch whose design is significantly different than that of previous heat switches. In order to join the Al to Cu with low contact resistance, we plasma… Show more

“…The superconducting heat switch assembly including cone joints contributes 170 nΩ to this value. The thermal conductivity of the open switch, measured at 100 mK is 3×10 −5 Wcm −1 K −1 , equivalent to that achieved in aluminum heat switches [4,65]. The thermal resistance of Path B was measured directly, by applying heat to the ULT plate, and corresponded to an electrical resistance of 150 nΩ.…”

High performance cryogen-free microkelvin platform

“…The superconducting heat switch assembly including cone joints contributes 170 nΩ to this value. The thermal conductivity of the open switch, measured at 100 mK is 3×10 −5 Wcm −1 K −1 , equivalent to that achieved in aluminum heat switches [4,65]. The thermal resistance of Path B was measured directly, by applying heat to the ULT plate, and corresponded to an electrical resistance of 150 nΩ.…”

High performance cryogen-free microkelvin platform

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