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40 p, 2.6 MB Nanoscale thermal imaging of dissipation in quantum systems / Halbertal, D. (Weizmann Institute of Science. Department of Condensed Matter Physics) ; Cuppens, Jo (Institut Català de Nanociència i Nanotecnologia) ; Ben Shalom, M. (University of Manchester) ; Embon, L. (Columbia University. Department of Physics) ; Shadmi, N. (Weizmann Institute of Science. Department of Materials and Interfaces) ; Anahory, Y. (Weizmann Institute of Science. Department of Condensed Matter Physics) ; Naren, H.R. (Weizmann Institute of Science. Department of Condensed Matter Physics) ; Sarkar, J. (Weizmann Institute of Science. Department of Condensed Matter Physics) ; Uri, A. (Weizmann Institute of Science. Department of Condensed Matter Physics) ; Ronen, Y. (Weizmann Institute of Science. Department of Condensed Matter Physics) ; Myasoedov, Y. (Weizmann Institute of Science. Department of Condensed Matter Physics) ; Levitov, L.S. (Massachusetts Institute of Technology. Department of Physics) ; Joselevich, Ernesto (Weizmann Institute of Science. Department of Materials and Interfaces) ; Geim, A.K. (University of Manchester) ; Zeldov, E. (Weizmann Institute of Science. Department of Condensed Matter Physics)
Energy dissipation is a fundamental process governing the dynamics of physical, chemical and biological systems. It is also one of the main characteristics that distinguish quantum from classical phenomena. [...]
2016 - 10.1038/nature19843
Nature, Vol. 539, Issue 7629 (November 2016) , p. 407-410  

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