AI Article Synopsis
- Measured shot noise and submillimeter-wave response in a NbN superconducting tunnel junction shows a unique subharmonic gap structure in its current-voltage (I-V) curve.
- The effective charge defined from the noise-current ratio exhibits a step-like pattern relative to voltage.
- Novel I-V features appear when exposed to submillimeter-wave radiation, indicating the occurrence of coherent multiple Andreev reflection processes despite low barrier transparency in the junction.
Article Abstract
We measured shot noise and submillimeter-wave response in a superconducting NbN tunnel junction that had a subharmonic gap structure on the current-voltage (I-V) curve. We found that the observed effective charge, defined from the noise-current ratio, tends to a steplike function of voltage. In the presence of submillimeter-wave radiation of frequency v, novel step structures spaced by hv/2e below and above the half-gap voltage clearly appeared on the I-V curve, overlapping the ordinary photon-assisted tunneling steps spaced by hv/e. Observation of these features provides clear evidence that coherent multiple Andreev reflection processes occur in the NbN tunnel junction with low barrier transparency.
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| http://dx.doi.org/10.1103/PhysRevLett.95.017002 | DOI Listing |
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