Charging-energy corrections to macroscopic quantum tunneling in small Josephson junctions

Efrat Shimshoni; Eshel Ben-Jacob

doi:10.1103/PhysRevB.43.2705

Charging-energy corrections to macroscopic quantum tunneling in small Josephson junctions

Efrat Shimshoni
, Eshel Ben-Jacob

Research output: Contribution to journal › Article › peer-review

6 Scopus citations

Abstract

We study the effect of the phase dependence of the effective capacitance of Josephson junctions on macroscopic quantum tunneling. We calculate the correction due to the nonlinearity of the capacitance on the rate of escape out of a metastable well, in the presence of Ohmic dissipation, and discuss its dependence on the parameters of the junction. We show that the correction tends to enhance the escape rate and that the enhancement becomes more pronounced as the self-capacitance or the normal-state resistance of the junction is reduced.

Original language	English
Pages (from-to)	2705-2711
Number of pages	7
Journal	Physical Review B
Volume	43
Issue number	4
DOIs	https://doi.org/10.1103/PhysRevB.43.2705
State	Published - 1991
Externally published	Yes

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10.1103/PhysRevB.43.2705

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abstract = "We study the effect of the phase dependence of the effective capacitance of Josephson junctions on macroscopic quantum tunneling. We calculate the correction due to the nonlinearity of the capacitance on the rate of escape out of a metastable well, in the presence of Ohmic dissipation, and discuss its dependence on the parameters of the junction. We show that the correction tends to enhance the escape rate and that the enhancement becomes more pronounced as the self-capacitance or the normal-state resistance of the junction is reduced.",

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AB - We study the effect of the phase dependence of the effective capacitance of Josephson junctions on macroscopic quantum tunneling. We calculate the correction due to the nonlinearity of the capacitance on the rate of escape out of a metastable well, in the presence of Ohmic dissipation, and discuss its dependence on the parameters of the junction. We show that the correction tends to enhance the escape rate and that the enhancement becomes more pronounced as the self-capacitance or the normal-state resistance of the junction is reduced.

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Charging-energy corrections to macroscopic quantum tunneling in small Josephson junctions

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