Nanoscale thermal imaging of dissipation in quantum systems

Halbertal, D.; Cuppens, J.; Shalom, M. Ben; Embon, L.; Shadmi, N.; Anahory, Y.; Naren, H. R.; Sarkar, J.; Uri, A.; Ronen, Y.; Myasoedov, Y.; Levitov, L. S.; Joselevich, E.; Geim, A. K.; Zeldov, E.

Nanoscale thermal imaging of dissipation in quantum systems

D. Halbertal (), J. Cuppens, M. Ben Shalom, L. Embon, N. Shadmi, Y. Anahory, H. R. Naren, J. Sarkar, A. Uri, Y. Ronen, Y. Myasoedov, L. S. Levitov, E. Joselevich, A. K. Geim and E. Zeldov ()
Additional contact information
D. Halbertal: Weizmann Institute of Science
J. Cuppens: Weizmann Institute of Science
M. Ben Shalom: National Graphene Institute, The University of Manchester, Booth Street East
L. Embon: Weizmann Institute of Science
N. Shadmi: Weizmann Institute of Science
Y. Anahory: Weizmann Institute of Science
H. R. Naren: Weizmann Institute of Science
J. Sarkar: Weizmann Institute of Science
A. Uri: Weizmann Institute of Science
Y. Ronen: Weizmann Institute of Science
Y. Myasoedov: Weizmann Institute of Science
L. S. Levitov: Massachusetts Institute of Technology
E. Joselevich: Weizmann Institute of Science
A. K. Geim: National Graphene Institute, The University of Manchester, Booth Street East
E. Zeldov: Weizmann Institute of Science

Nature, 2016, vol. 539, issue 7629, 407-410

Abstract: A cryogenic thermal imaging technique that uses a superconducting quantum interference device fabricated on the tip of a sharp pipette can be used to image the thermal signature of extremely low power nanometre-scale dissipation processes.

Date: 2016
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DOI: 10.1038/nature19843

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