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Paper detail

Highly-sensitive superconducting quantum interference proximity transistor

We report the design and implementation of a high-performance superconducting quantum interference proximity transistor (SQUIPT) based on aluminum-copper (Al-Cu) technology. With the adoption of a thin and short copper nanowire we demostrate full phase-driven modulation of the proximity-induced minigap in the normal metal density of states. Under optimal bias we record unprecedently high flux-to-voltage (up to 3 mV/$Φ_0$) and flux-to-current (exceeding 100 nA/$Φ_0$) transfer function values at sub-Kelvin temperatures, where $Φ_0$ is the flux quantum. The best magnetic flux resolution (as low as 500 n$Φ_0/\sqrt{Hz}$ at 240 mK, being limited by the room temperature pre-amplification stage) is reached under fixed current bias. These figures of merit combined with ultra-low power dissipation and micrometer-size dimensions make this mesoscopic interferometer attractive for low-temperature applications such as the investigation of the magnetization of small spin populations.

preprint2014arXivOpen access
A. RonzaniC. AltimirasF. Giazotto
cond-mat.mes-hallcond-mat.supr-con
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A. RonzaniC. AltimirasF. Giazotto

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