Аннотация:
We present low-temperature transport measurements
on single and multiply connected SNS systems fabricated on the
basis of superconducting polycrystalline PtSi film. Zero bias
anomaly (ZBA) and subharmonic energy gap structure (SGS)
originating from the proximity effects and the multiple Andreev
reflections were observed and carefully studied. It was found
that the ZBA is not described by any theories developed for
SNS junctions with high-transparent NS interface. The value of
excess conductance and the width of ZBA for single SNS
junction far exceed values predicted by up-to-date theories.
The NS interfaces of our SNS junctions are really hightransparent,
for superconducting and normal metal parts are
made of the same material. On the other hand, as we have to
deal with long diffusive SNS junctions one might expect that
impurities could provide the conditions for incoherent multiple
Andreev reflections.
In comparison with single SNS junctions we observe significant
narrowing of the ZBA in multiply connected SNS systems:
one-dimensional ($\mathrm{1D}$) and two-dimensional arrays ($\mathrm{2D}$) of SNS
junctions. In $\mathrm{2D}$ arrays an appreciable SGS appears, with up to
$n=16$ ($eV=\pm2\Delta/n$) and some numbers being lost. One of the
most interesting results obtained on $\mathrm{1D}$ arrays consists in the
appearance of symmetrical dips on the dependences $\mathrm{d}V/\mathrm{d}I-V$
at dc voltage corresponding to some multiples of $\Delta/e$. Presented
results show that coherent phenomena governed by Andreev
reflection are not self-averaging and are maintained over a
macroscopic scale.