We study, both theoretically and experimentally, the features on the current-voltage characteristic of a highly transparent Josephson junction caused by transition of the superconducting leads to the normal state. These features appear due to the suppression of the Andreev excess current. We show that by tracing the dependence of the voltage, at which the transition occurs, on the bath temperature and by analyzing the suppression of the excess current by the bias voltage one can recover the temperature dependence of the heat flow out of the junction. We verify theory predictions by fabricating two highly transparent superconductor-graphene-superconductor (SGS) Josephson junctions with suspended and non-suspended graphene as a non-superconducting section between Al leads. Applying the above mentioned technique we show that the cooling power of the suspended junction depends on the bath temperature as ∝Tbath3.1 close to the superconducting critical temperature.
@article{arxiv.2106.07503,
title = {Joule heating effects in high transparency Josephson junctions},
author = {Matti Tomi and Mikhail R. Samatov and Andrey S. Vasenko and Antti Laitinen and Pertti Hakonen and Dmitry S. Golubev},
journal= {arXiv preprint arXiv:2106.07503},
year = {2021}
}