4.4 Article

Shunted Josephson Junctions and Optimization of Niobium Integrated Matching Circuits

出版社

IEEE-INST ELECTRICAL ELECTRONICS ENGINEERS INC
DOI: 10.1109/TASC.2021.3130103

关键词

Junctions; Resistors; Resistance; Oscillators; Frequency measurement; Josephson junctions; Topology; Josephson effect; superconducting integrated circuits; superconducting devices; thin film circuits

资金

  1. Russian Science Foundation [20-42-04415]
  2. Ministry of Science and Higher Education of the Russian Federation [075-15-2021-667]
  3. Russian Science Foundation [20-42-04415] Funding Source: Russian Science Foundation

向作者/读者索取更多资源

This study fabricated and studied Josephson junctions with non-hysteretic I-V characteristic and high critical parameters, and applied them to develop tunable THz range oscillators. By using a new type of shunting, the circuit parameters were improved and the niobium integrated circuits for superconducting oscillators and SIS junctions were designed. The experimental results showed efficient operation of these circuits in the frequency range of 300 to 700 GHz.
Josephson junctions (JJs) with non-hysteretic I-V characteristic and high critical parameters are required for many applications; in particular, they are needed to create tunable THz range oscillators. We fabricated and studied shunted superconductor-insulator-superconductor (SIS) Nb-AlOx-Nb tunnel junctions with an area of about 1 mu m(2), estimated their parameters, and compared them with theoretical models. To assess the performance of shunted junctions in the terahertz range, their characteristics were studied under the influence of a high-frequency signal; the estimated value of the characteristic voltage for the shunted junction at a high frequency is about 1 mV. To improve the circuit parameters, a new type of the shunting based on application of NIS junctions was proposed, which reduces the influence of parasitic inductance, expands the frequency range of the generator, and decreases the size of the structure. The JJs with a new type of shunting have been fabricated and studied. The niobium integrated circuits intended for matching the superconducting oscillator and an SIS junction as a microwave detector were designed, fabricated, and tested. Such structures are required for studying the spectral characteristics and analyzing the operation of the oscillator. The developed circuits have demonstrated efficient operation at frequencies from 300 to 700 GHz; the experimental results are in good agreement with the simulated characteristics. The results obtained will be implemented for further development of the THz range oscillators.

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