Projects per year
Abstract
The Josephson junction is a building block of quantum circuits. Its behavior, well understood when treated as an isolated entity, is strongly affected by coupling to an electromagnetic environment. In 1983, Schmid predicted that a Josephson junction shunted by a resistance exceeding the resistance quantum R Q = h/4e 2 ≈ 6.45 kΩ for Cooper pairs would become insulating since the phase fluctuations would destroy the coherent Josephson coupling. However, recent microwave measurements have questioned this interpretation. Here, we insert a small Josephson junction in a Johnson-Nyquist-type setup where it is driven by weak current noise arising from thermal fluctuations. Our heat probe minimally perturbs the junction’s equilibrium, shedding light on features not visible in charge transport. We find that the Josephson critical current completely vanishes in DC charge transport measurement, and the junction demonstrates Coulomb blockade in agreement with the theory. Surprisingly, thermal transport measurements show that the Josephson junction acts as an inductor at high frequencies, unambiguously demonstrating that a supercurrent survives despite the Coulomb blockade observed in DC measurements.
Original language | English |
---|---|
Article number | 7924 |
Pages (from-to) | 1-8 |
Number of pages | 8 |
Journal | Nature Communications |
Volume | 14 |
Issue number | 1 |
DOIs | |
Publication status | Published - Dec 2023 |
MoE publication type | A1 Journal article-refereed |
Fingerprint
Dive into the research topics of 'Bolometric detection of Josephson inductance in a highly resistive environment'. Together they form a unique fingerprint.Projects
- 2 Finished
-
QTF 2 stage: Finnish Centre of Exellence in Quantum Technology
Pekola, J. (Principal investigator), Thomas, G. (Project Member), Ankerhold, E. (Project Member), Subero Rengel, D. (Project Member), Satrya, C. (Project Member), Chang, Y.-C. (Project Member), Lemziakov, S. (Project Member), Karimi, B. (Project Member) & Marín Suárez, M. (Project Member)
01/05/2020 → 31/12/2022
Project: Academy of Finland: Other research funding
-
SQH: Superconducting quantum heat engines and refrigerators
Pekola, J. (Principal investigator), Karimi, B. (Project Member), Singh, S. (Project Member), Blanchet, F. (Project Member), Peltonen, J. (Project Member), Subero Rengel, D. (Project Member), Upadhyay, R. (Project Member), Gubaydullin, A. (Project Member), Wang, L. (Project Member), Chang, Y.-C. (Project Member), Mäkinen, I. (Project Member), Thomas, G. (Project Member), Lvov, D. (Project Member), Mannila, E. (Project Member), Senior, J. (Project Member), Strelnikov, A. (Project Member), Chiang, K.-H. (Project Member), Lemziakov, S. (Project Member), Satrya, C. (Project Member), Chen, Z.-Y. (Project Member), Praks, E. (Project Member) & Marín Suárez, M. (Project Member)
27/09/2017 → 30/09/2023
Project: EU: ERC grants
Equipment
-
-
OtaNano – Low Temperature Laboratory
Savin, A. (Manager) & Rissanen, A. (Other)
OtaNanoFacility/equipment: Facility
-
Press/Media
-
Aalto University School of Science and Technology Researchers Have Provided New Study Findings on Science (Bolometric detection of Josephson inductance in a highly resistive environment)
Golubev, D., Peltonen, J., Pekola, J. P., Karimi, B. & Thomas, G.
20/12/2023
1 item of Media coverage
Press/Media: Media appearance