Experimental Study of Frequency Multiplication in a Distributed Array of SIS Junctions

We report the first experimental off-chip detection of frequency multiplication in a distributed array of superconductor-insulator-superconductor (SIS) junctions. A test device consisting of series array of 68 Nb/Al-AlOx/Nb tunnel junctions was designed to study generation of the second harmonic in...

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Veröffentlicht in:	IEEE transactions on terahertz science and technology 2014-03, Vol.4 (2), p.254-259
Hauptverfasser:	Billade, Bhushan, Pavolotsky, Alexey, Belitsky, Victor
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Sprache:	eng
Schlagworte:	Arrays Devices Electronic devices Frequency multiplier Harmonic analysis Junctions Microwaves Mixers Multiplication Multiplication & division Oscillators Power generation Spectra superconducting devices thin-film circuits
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creator	Billade, Bhushan Pavolotsky, Alexey Belitsky, Victor
description	We report the first experimental off-chip detection of frequency multiplication in a distributed array of superconductor-insulator-superconductor (SIS) junctions. A test device consisting of series array of 68 Nb/Al-AlOx/Nb tunnel junctions was designed to study generation of the second harmonic in the 190-210 GHz band. The SIS array was exited with microwave radiation at 3-mm band using a quasi-optically coupled Gunn oscillator, and the output response of the device was studied using a double-sideband SIS mixer operating in the 163-211 GHz range with 4-8 GHz IF bandwidth. We measured extremely sharp spectral signals, associated with the ×2 frequency multiplication by the SIS array. Single- and multi-photon processes were observed in the response of SIS tunnel junction-array to the applied microwave radiation, confirming device operation in the quantum mode. The output power of the multiplied signal increases linearly with the power of the pumping signal up to certain level and them saturates. In attempt to verify that the device produces noticeable power, the output of the test device was connected to the LO port of the SIS mixer, and an increase of 10%-20% in the SIS mixer dark current was observed. Further development of the demonstrated principle of frequency multiplication may lead to a practical frequency multiplier device.
doi_str_mv	10.1109/TTHZ.2014.2304138
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A test device consisting of series array of 68 Nb/Al-AlOx/Nb tunnel junctions was designed to study generation of the second harmonic in the 190-210 GHz band. The SIS array was exited with microwave radiation at 3-mm band using a quasi-optically coupled Gunn oscillator, and the output response of the device was studied using a double-sideband SIS mixer operating in the 163-211 GHz range with 4-8 GHz IF bandwidth. We measured extremely sharp spectral signals, associated with the ×2 frequency multiplication by the SIS array. Single- and multi-photon processes were observed in the response of SIS tunnel junction-array to the applied microwave radiation, confirming device operation in the quantum mode. The output power of the multiplied signal increases linearly with the power of the pumping signal up to certain level and them saturates. In attempt to verify that the device produces noticeable power, the output of the test device was connected to the LO port of the SIS mixer, and an increase of 10%-20% in the SIS mixer dark current was observed. 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A test device consisting of series array of 68 Nb/Al-AlOx/Nb tunnel junctions was designed to study generation of the second harmonic in the 190-210 GHz band. The SIS array was exited with microwave radiation at 3-mm band using a quasi-optically coupled Gunn oscillator, and the output response of the device was studied using a double-sideband SIS mixer operating in the 163-211 GHz range with 4-8 GHz IF bandwidth. We measured extremely sharp spectral signals, associated with the ×2 frequency multiplication by the SIS array. Single- and multi-photon processes were observed in the response of SIS tunnel junction-array to the applied microwave radiation, confirming device operation in the quantum mode. The output power of the multiplied signal increases linearly with the power of the pumping signal up to certain level and them saturates. In attempt to verify that the device produces noticeable power, the output of the test device was connected to the LO port of the SIS mixer, and an increase of 10%-20% in the SIS mixer dark current was observed. Further development of the demonstrated principle of frequency multiplication may lead to a practical frequency multiplier device.</description><subject>Arrays</subject><subject>Devices</subject><subject>Electronic devices</subject><subject>Frequency multiplier</subject><subject>Harmonic analysis</subject><subject>Junctions</subject><subject>Microwaves</subject><subject>Mixers</subject><subject>Multiplication</subject><subject>Multiplication & division</subject><subject>Oscillators</subject><subject>Power generation</subject><subject>Spectra</subject><subject>superconducting devices</subject><subject>thin-film circuits</subject><issn>2156-342X</issn><issn>2156-3446</issn><issn>2156-3446</issn><fulltext>true</fulltext><rsrctype>article</rsrctype><creationdate>2014</creationdate><recordtype>article</recordtype><sourceid>RIE</sourceid><sourceid>D8T</sourceid><recordid>eNpdkU9v1DAQxSMEElXpB6i4WOLCZRf_TexjVVpa1KqHXSrExZrYY9VVNgl2orLfHoet9oAv48PvPc2bV1XnjK4Zo-bLdnvza80pk2suqGRCv6lOOFP1SkhZvz3--c_31VnOz7Q8VQvdyJPq8erPiCnusJ-gI5tp9nsyBHKd8PeMvduT-7mb4thFB1McehJ7AuRrzFOK7TyhJxcpwT_J5nZDvs-9W7D8oXoXoMt49jpPqx_XV9vLm9Xdw7fby4u7lZOUTysjpJLcBKe1MQJAah48UCVpAI-NV6pBFGikEG3b1NQwUJ6iLqGDUHUjTqvNwTe_4Di3dixRIO3tANEmzAjJPVn3BN0OU7YZrfIKgvZg2-CplZw6Cw0KK7SB2rEmYFhcPx9cxzSUM-TJ7mJ22HXQ4zBny7RSQhnKdUE__Yc-D3PqS-ZClTI0Z0IVih0ol4acE4bjoozapUK7VGiXCu1rhUXz8aCJiHjk60byWnDxFxFkl00</recordid><startdate>20140301</startdate><enddate>20140301</enddate><creator>Billade, Bhushan</creator><creator>Pavolotsky, Alexey</creator><creator>Belitsky, Victor</creator><general>IEEE</general><general>The Institute of Electrical and Electronics Engineers, Inc. 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A test device consisting of series array of 68 Nb/Al-AlOx/Nb tunnel junctions was designed to study generation of the second harmonic in the 190-210 GHz band. The SIS array was exited with microwave radiation at 3-mm band using a quasi-optically coupled Gunn oscillator, and the output response of the device was studied using a double-sideband SIS mixer operating in the 163-211 GHz range with 4-8 GHz IF bandwidth. We measured extremely sharp spectral signals, associated with the ×2 frequency multiplication by the SIS array. Single- and multi-photon processes were observed in the response of SIS tunnel junction-array to the applied microwave radiation, confirming device operation in the quantum mode. The output power of the multiplied signal increases linearly with the power of the pumping signal up to certain level and them saturates. In attempt to verify that the device produces noticeable power, the output of the test device was connected to the LO port of the SIS mixer, and an increase of 10%-20% in the SIS mixer dark current was observed. Further development of the demonstrated principle of frequency multiplication may lead to a practical frequency multiplier device.</abstract><cop>Piscataway</cop><pub>IEEE</pub><doi>10.1109/TTHZ.2014.2304138</doi><tpages>6</tpages><oa>free_for_read</oa></addata></record>
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subjects	Arrays Devices Electronic devices Frequency multiplier Harmonic analysis Junctions Microwaves Mixers Multiplication Multiplication & division Oscillators Power generation Spectra superconducting devices thin-film circuits
title	Experimental Study of Frequency Multiplication in a Distributed Array of SIS Junctions
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