Parametric amplifier for W-band frequency range

Till date parametric amplifier development has been focused towards 0.5 - 20 GHz frequency band utilizing kinetic inductance of superconducting thin film or non-linearity of Josephson junction elements. Recently various proposal for parametric amplifier [1] and qubits [2] has been proposed for mm-wave frequency range utlizing high kinetic inductance superconducting material. These mm-wave parameteric devices are relevant for microwave-to-optical transducer development [3], improving the sensitivity of astronomical detectors [4]. We present our effort on developing parametric amplifier for mm-wave frequency using superconducting circuits.



1. Anferov, A., Suleymanzade, A., Oriani, A., Simon, J., & Schuster, D. I. (2020). Millimeter-wave four-wave mixing via kinetic inductance for quantum devices. Physical Review Applied, 13(2), 024056.

2. Faramarzi, F., Day, P., Glasby, J., Sypkens, S., Colangelo, M., Chamberlin, R., Mauskopf, P. (2021). Initial design of a w-band superconducting kinetic inductance qubit. IEEE Transactions on Applied Superconductivity, 31(5), 1-5.

3. Kumar, A., Suleymanzade, A., Stone, M., Taneja, L., Anferov, A., Schuster, D. I., & Simon, J. (2023). Quantum-enabled millimetre wave to optical transduction using neutral atoms. Nature, 615(7953), 614-619.

4. Noroozian, Omid, Anthony R. Kerr, Jeffrey G. Mangum, Peter K. Day, Henry G. Leduc, Jonas Zmuidzinas, David P. Woody, Arthur W. Lichtenberger, Michael Cyberey, and Robert Weikle. "Superconducting parametric amplifiers: The next big thing in (Sub) millimeter-wave receivers." In 2018 United States National Committee of URSI National Radio Science Meeting (USNC-URSI NRSM), pp. 1-2. IEEE, 2018.