Quantum Effects in Resistance-Shunted Josephson Junctions

Details Quantum Effects in Resistance-Shunted Josephson Junctions Quantum Effects in Resistance-Shunted Josephson Junctions

1999-08-13

arxiv.org/abs/cond-mat/9908192v1

Physics

Condensed Matter

Superconductivity

10 pages, 7 figures

Scientific paper

Thermodynamics and transport properties of resistance-shunted Josephson junctions are studied theoretically in the tight-binding limit E_C/E_J<<1, where E_C and E_J are a charging energy and a Josephson coupling energy respectively. Based on a phenomenological harmonic-oscillator model, weak coupling region K=R_Q/R<<1 is analytically studied, where R and R_Q=h/(2e)^2 are a shunted resistance and the quantum resistance. In addition to the effective bandwidth, we find that this multi-level system genuinely has a novel crossover at lower energy below which the density of states becomes strongly degenerate. These two energy scales control the linear DC responses, optical responses, and nonlinear I-V characteristics. The lower energy crossover indicates the existence of a new class of strongly-correlated phenomena beyond the framework of the Kondo problem.

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