High Transition Temperature Nano Superconding Quantum Interference Devices
ORAL
Abstract
We report fabrication and electrical characterization of nanoscale superconducting quantum interference devices (SQUIDs) from YBCO using a helium ion microscope. Focused helium ion irradiation is used to pattern the material on the nanoscale to form the SQUID loop and junctions. The nano SQUIDs are coupled to a direct inject pickup loop that is 200 microns in diameter that results in a periodicty of 170nT/flux quantum. Noise measurements reveal a white field noise of 1 pT/rt Hz. These SQUIDs can exhbit very large resistances in excess of 100 ohms and large modulation voltages as high as 0.4mV.
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Presenters
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Shane Cybart
Mechanical Engineering, University of California Riverside
Authors
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Shane Cybart
Mechanical Engineering, University of California Riverside
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Ethan Cho
Department of Mechanical Engineering, University of California, Riverside, Mechanical Engineering, University of California Riverside
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Hao Li
Mechanical Engineering, University of California Riverside