P. Silvestrini et al., THE ROLE OF QUANTIZED ENERGY-LEVELS IN THE MACROSCOPIC QUANTUM BEHAVIOR OF JOSEPHSON-JUNCTIONS, Fizika nizkih temperatur, 22(3), 1996, pp. 252-266
The effects of the presence of quantized levels in the problem of the
(V = 0)-state decay ill Josephson junctions have been investigated. In
considering the dynamics of the junction in the quantum picture, a pr
eliminary study of the classical thermal fluctuation is necessary espe
cially for the determination of the relevant junction parameters to be
used in the quantum limit. Measurements of the lifetime of the zero-v
oltage state in a single hysteretic Josephson junction show clear evid
ence of two different damping regimes. Results are obtained for a wide
range of damping within the underdamped region because the damping re
sistance depends exponentially on Inverse temperature as does the junc
tion quasiparticle resistance. This latter aspect is relevant because
or allows to obtain a damping level that decreases with temperature, a
nd hence, at low temperature we are able to study an extremely underda
mped system. Many new interesting aspects related to the quantum behav
ior of the junction can be observed with such a low damping level. It
is shown that a fast sweep of a Josephson tunnel junction call reveal
the presence of quantum energy levels in the associated washboard pote
ntial. Peculiar effects, which can be observed on P(I) and Gamma(I), a
re obtained by numerical integration of the entire time dependent mast
er equation describing the dynamics of the statistical population of e
ach quantum level. The curves obtained predict the results of possible
new experiments. Finally, we discuss, within the well-established qua
ntum picture of the junction, the idea of a resonant macroscopic quant
um tunneling between levels with the same energy ill neighboring wells
of the potential shape describing the junction. This process produces
small voltage spikes in the current-voltage characteristics, as well
as peculiar peaks In the current switching distributions at given curr
ent values, which call be measured in junctions and SQUIDs with suitab
le parameters.