In-Situ Superconductor Temperature Sensor for Cryogenic Integrated Circuits

Authors

EMRE KÜÇÜKYILMAZFollow
NAZİF ORHUN TEKCİFollow
SASAN RAZMKHAHFollow
ALİ BOZBEYFollow

Author ORCID Identifier

EMRE KÜÇÜKYILMAZ: 0009-0001-4106-2158

NAZİF ORHUN TEKCİ: 0009-0004-6228-1271

ALİ BOZBEY: 0000-0003-2747-310X

SASAN RAZMKHAH: 0000-0003-0029-2800

DOI

10.55730/1300-0632.4101

Abstract

Cryogenic circuits, such as those based on single flux quantum (SFQ) logic, function at extremely low temperatures. Therefore, the designs target the utilization of liquid helium (LHe) temperatures, maintaining them at 4.2 K. These specialized circuits can be subjected to measurement either within liquid helium (LHe) baths or enclosed within closed-cycle cryocoolers.However, when utilizing LHe in cryocooler systems, inherent weak thermal contact can lead to temperature gradients between the circuit chip and the cold head, where conventional temperature sensors are typically placed. To address this challenge, this study introduces an innovative on-chip temperature sensing approach that capitalizes on the temperature dependence of the Josephson junction's (JJ) critical current IC. The relationship between JJ's IC and temperature (IC vs T) is meticulously derived and calibrated within the cryocooler system. Subsequently, this IC vs. T profile is mathematically fitted to a polynomial function and integrated into an embedded microcontroller. This microcontroller facilitates the supply and measurement of bias currents and voltages, effectively establishing an autonomous temperature monitoring system. Implementing this sensor mitigates temperature disparities on the chip's surface compared to the intended target temperature and eradicates measurement errors that might arise due to such discrepancies.

Keywords

Cryogenic electronics, Josephson junctions, Superconductor integrated circuits, Temperature measurement

First Page

763

Last Page

773

Creative Commons License

This work is licensed under a Creative Commons Attribution 4.0 International License.

Recommended Citation

KÜÇÜKYILMAZ, EMRE; TEKCİ, NAZİF ORHUN; RAZMKHAH, SASAN; and BOZBEY, ALİ (2024) "In-Situ Superconductor Temperature Sensor for Cryogenic Integrated Circuits," Turkish Journal of Electrical Engineering and Computer Sciences: Vol. 32: No. 6, Article 3. https://doi.org/10.55730/1300-0632.4101
Available at: https://journals.tubitak.gov.tr/elektrik/vol32/iss6/3