COULOMB BLOCKADE AND QUANTUM EFFECTS OF CHARGE IN A NON-DISSIPATIVE MESOSCOPIC INDUCTANCE-COUPLING CIRCUITS | Zendy

JiSuo Wang | Zendy; Feng Jian | Zendy; Mingsheng Zhan | Zendy

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COULOMB BLOCKADE AND QUANTUM EFFECTS OF CHARGE IN A NON-DISSIPATIVE MESOSCOPIC INDUCTANCE-COUPLING CIRCUITS

Author(s) -

JiSuo Wang,

Feng Jian,

Mingsheng Zhan

Publication year - 2001

Publication title -

acta physica sinica

Language(s) - English

Resource type - Journals

SCImago Journal Rank - 0.199

H-Index - 47

ISSN - 1000-3290

DOI - 10.7498/aps.50.299

Subject(s) - mesoscopic physics , coulomb blockade , dissipative system , physics , coupling (piping) , coulomb , electronic circuit , quantum mechanics , charge (physics) , inductance , quantum , condensed matter physics , quantum electrodynamics , voltage , materials science , transistor , electron , metallurgy

Based on the fact that the charge is quantized in the mesoscopic circuit,the quantum theory of the mesoscopic inductance-coupling circuits and the condition for Coulomb blockade have been given in this paper,and the quantum fluctuations in the mesoscopic inductance coupling circuits have also been shown.

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