Josephson decoupling phase in inhomoheneous arrays of superconducting quantum dots

Details Josephson decoupling phase in inhomoheneous arrays of superconducting quantum dots Josephson decoupling phase in inhomoheneous arrays of superconducting quantum dots

Publishing date

2009-10-28

URL

arxiv.org/abs/0910.5346v1

Science

Physics

Field

Condensed Matter

SubField

Mesoscale and Nanoscale Physics

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Type

Scientific paper

Abstract

We present a study of quantum phase analysis of inhomogeneous and homogeneous arrays of superconducting quantum dots (SQD). We observe the existance of Josephson decouple (JD) phase only at the half filling for inhomogeneous array of SQD due to the fluctuation of Josephson couplings over the sites at half filling. In JD phase superconductivity disappears even in the absence of Coulomb blockade phase. We also observe that fluctuation of on-site Coulomb charging energy produces the relevant coupling term that yields Coulomb blockade gapped phase. The presence of nearest-neighbor and next-nearest-neighbor Coulomb interaction yields the same physics for inhomogeneous and homogeneous SQD.

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