Small capacitance self-shunted MoRe–Si(W)–MoRe junctions for SQUIDs applications

Small capacitance self-shunted MoRe–Si(W)–MoRe junctions for SQUIDs applications

MoRe–Si(W)–MoRe planar Josephson junctions with a hybrid barrier layer made of amorphous silicon doped with tungsten at relatively high tungsten concentrations (~ 11%) are experimentally studied. Small intrinsic (natural) capacitance and shunting by tungsten nanoclusters give an advantage to MoRe–Si...

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Veröffentlicht in:Applied nanoscience 2020-08, Vol.10 (8), p.2843-2848
Hauptverfasser: Shapovalov, A. P., Shaternik, V. E., Turutanov, O. G., Suvorov, O. Yu, Kalenyuk, A. A., Lyakhno, V. Yu, Yilmaz, U., Febvre, P., Shnyrkov, V. I.
Format: Artikel
Sprache:eng
Schlagworte:
Amorphous silicon
Barrier layers
Capacitance
Chemistry and Materials Science
Condensed Matter
Josephson junctions
Materials Science
Membrane Biology
Nanochemistry
Nanoclusters
Nanotechnology
Nanotechnology and Microengineering
Original Article
Physics
Sensitivity enhancement
SIS (superconductors)
Superconductivity
Thickness
Tungsten
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Zusammenfassung:MoRe–Si(W)–MoRe planar Josephson junctions with a hybrid barrier layer made of amorphous silicon doped with tungsten at relatively high tungsten concentrations (~ 11%) are experimentally studied. Small intrinsic (natural) capacitance and shunting by tungsten nanoclusters give an advantage to MoRe–Si(W)–MoRe junctions against traditional superconductor–insulator–superconductor (SIS) planar junctions as candidates for innovative superconducting electronics. It is shown that the use of such junctions with a Si(W) barrier layer thickness of 15–30 nm can substantially enhance the sensitivity of both RF and DC SQUIDs.
ISSN:2190-5509
2190-5517
DOI:10.1007/s13204-020-01254-9