arXiv:cond-mat/9912198 Abstract

arXiv:cond-mat/9912198Abstract References Reviews Resources

Quantum Conductance of the Single Electron Transistor

Published 1999-12-11Version 1

The quantum conductance of the single-electron tunneling (SET) transistor is investigated in this paper by the functional integral approach. The formalism is valid for arbitrary tunnel resistance of the junctions forming the SET transistor at any temperature. The path integrals are evaluated by the semiclassical method to yield an explicit non-perturbation form of the quantum conductance of the SET transistor. An anomaly of the quantum conductance is found if the tunnel resistances are much smaller than the quantum resistance. The dependence of the conductance on the gate voltage is also discussed.

Comments: 4 pages including some mathe details of cond-mat/9908061

Journal: PRB 55, 12868 (1997)

DOI: 10.1103/PhysRevB.55.12868

Categories: cond-mat.mes-hall

Keywords: quantum conductance, single electron transistor, set transistor, explicit non-perturbation form, functional integral approach

Tags: journal article

Related articles: Most relevant | Search more

arXiv:1802.09800 [cond-mat.mes-hall] (Published 2018-02-27)

A Silicon Cluster Based Single Electron Transistor with Potential Room-Temperature Switching

Zhanbin Bai et al.

arXiv:cond-mat/0508223 (Published 2005-08-09)

Impurity in the Tomonaga-Luttinger model: a Functional Integral Approach

I. V. Lerner, I. V. Yurkevich

arXiv:cond-mat/0609009 (Published 2006-09-01)

Quantum conductance of graphene nanoribbons with edge defects

T. C. Li, Shao-Ping Lu

arXiv Analytics