Conventional Josephson metal-insulator-metal devices are inherently underdamped and exhibit hysteretic current-voltage response due to a very high subgap resistance compared to that in the normal state. At the same time, overdamped junctions with single-valued characteristics are needed for most superconducting digital applications. The usual way to overcome the hysteretic behavior is to place an external low-resistance normal-metal shunt in parallel with each junction. Unfortunately, such solution results in a considerable complication of the circuitry design and introduces parasitic inductance through the junction. This paper provides a concise overview of some generic approaches that have been proposed in order to realize internal shunting in Josephson heterostructures with a barrier that itself contains the desired resistive component. The main attention is paid to self-shunted devices with local weak-link transmission probabilities that are so strongly disordered in the interface plane that transmission probabilities are tiny for the main part of the transition region between two super-conducting electrodes, while a small part of the interface is well transparent. We discuss the possibility of realizing a universal bimodal distribution function and emphasize advantages of such junctions that can be considered as a new class of self-shunted Josephson devices promising for practical applications in superconducting electronics operating at 4.2 K.
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July 2017
Research Article|
July 01 2017
Intrinsically shunted Josephson junctions for electronics applications
M. Belogolovskii;
M. Belogolovskii
a)
Institute for Metal Physics, Kyiv 03142, Ukraine and Donetsk National University
, Vinnytsia 21021, Ukraine
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E. Zhitlukhina;
E. Zhitlukhina
Donetsk National University, Vinnytsia 21021, Ukraine and Donetsk Institute for Physics and Engineering
, Kyiv 03028, Ukraine
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V. Lacquaniti;
V. Lacquaniti
National Institute for Metrological Research
, Torino 10135, Italy
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N. De Leo;
N. De Leo
National Institute for Metrological Research
, Torino 10135, Italy
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M. Fretto;
M. Fretto
National Institute for Metrological Research
, Torino 10135, Italy
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A. Sosso
A. Sosso
National Institute for Metrological Research
, Torino 10135, Italy
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a)
Email: belogolovskii@ukr.net
Low Temp. Phys. 43, 756–765 (2017)
Article history
Received:
February 14 2017
Accepted:
July 12 2017
Citation
M. Belogolovskii, E. Zhitlukhina, V. Lacquaniti, N. De Leo, M. Fretto, A. Sosso; Intrinsically shunted Josephson junctions for electronics applications. Low Temp. Phys. 1 July 2017; 43 (7): 756–765. https://doi.org/10.1063/1.4995622
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