Design and Performance of a 600-720-GHz Sideband-Separating Receiver Using {{AlO}}_{x} and AlN SIS Junctions

F. P. Mena; J. W. Kooi; A. M. Baryshev; C. F. J. Lodewijk; T. Zijlstra; R. Hesper; G. Gerlofsma; T. M. Klapwijk; W. Wild

doi:10.1109/TMTT.2010.2090417

Design and Performance of a 600-720-GHz Sideband-Separating Receiver Using {{AlO}}_{x} and AlN SIS Junctions

F. P. Mena^*
, J. W. Kooi
, A. M. Baryshev
, C. F. J. Lodewijk
, T. Zijlstra
, R. Hesper
, G. Gerlofsma
, T. M. Klapwijk
, W. Wild

^*Corresponding author for this work

Astronomy

Research output: Contribution to journal › Article › Academic › peer-review

24 Citations (Scopus)

Abstract

We present the design, modeling, construction, and characterization of a sideband separating heterodyne receiver that covers the frequency range from 600 to 720 GHz. The receiver has been constructed using waveguide technology in the split-block technique. The core of the mixer consists of a quadrature hybrid, two directional couplers to inject the local oscillator signal, two superconductor-insulator-superconductor (SIS) junctions, three signal-termination loads, and two planar IF/bandpass-filter/dc-bias circuits. The instrument that we have constructed presents excellent performance as demonstrated by two important figures of merit: receiver noise temperature and sideband ratio. Across the entire band, the uncorrected single-sideband noise temperature is below 500 K and reaches 190 K at the best operating point. The sideband ratio is greater than 10 dB over most of the frequency operating range. Superconducting junctions containing AlOx- and AlN-tunnel barriers were tested.

Original language	English
Pages (from-to)	166-177
Number of pages	12
Journal	IEEE Transactions on Microwave Theory and Techniques
Volume	59
Issue number	1
DOIs	https://doi.org/10.1109/TMTT.2010.2090417
Publication status	Published - Jan-2011

Keywords

Mixers
superconducting integrated devices
superconducting microwave devices
WAVE-GUIDE
MIXERS
NOISE
TRANSITION

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Design and Performance of a 600-720-GHz Sideband-Separating Receiver Using
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title = "Design and Performance of a 600-720-GHz Sideband-Separating Receiver Using \{\{AlO\}\}\_\{x\} and AlN SIS Junctions",

abstract = "We present the design, modeling, construction, and characterization of a sideband separating heterodyne receiver that covers the frequency range from 600 to 720 GHz. The receiver has been constructed using waveguide technology in the split-block technique. The core of the mixer consists of a quadrature hybrid, two directional couplers to inject the local oscillator signal, two superconductor-insulator-superconductor (SIS) junctions, three signal-termination loads, and two planar IF/bandpass-filter/dc-bias circuits. The instrument that we have constructed presents excellent performance as demonstrated by two important figures of merit: receiver noise temperature and sideband ratio. Across the entire band, the uncorrected single-sideband noise temperature is below 500 K and reaches 190 K at the best operating point. The sideband ratio is greater than 10 dB over most of the frequency operating range. Superconducting junctions containing AlOx- and AlN-tunnel barriers were tested.",

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T1 - Design and Performance of a 600-720-GHz Sideband-Separating Receiver Using {{AlO}}_{x} and AlN SIS Junctions

AU - Mena, F. P.

AU - Kooi, J. W.

AU - Baryshev, A. M.

AU - Lodewijk, C. F. J.

AU - Zijlstra, T.

AU - Hesper, R.

AU - Gerlofsma, G.

AU - Klapwijk, T. M.

AU - Wild, W.

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N2 - We present the design, modeling, construction, and characterization of a sideband separating heterodyne receiver that covers the frequency range from 600 to 720 GHz. The receiver has been constructed using waveguide technology in the split-block technique. The core of the mixer consists of a quadrature hybrid, two directional couplers to inject the local oscillator signal, two superconductor-insulator-superconductor (SIS) junctions, three signal-termination loads, and two planar IF/bandpass-filter/dc-bias circuits. The instrument that we have constructed presents excellent performance as demonstrated by two important figures of merit: receiver noise temperature and sideband ratio. Across the entire band, the uncorrected single-sideband noise temperature is below 500 K and reaches 190 K at the best operating point. The sideband ratio is greater than 10 dB over most of the frequency operating range. Superconducting junctions containing AlOx- and AlN-tunnel barriers were tested.

AB - We present the design, modeling, construction, and characterization of a sideband separating heterodyne receiver that covers the frequency range from 600 to 720 GHz. The receiver has been constructed using waveguide technology in the split-block technique. The core of the mixer consists of a quadrature hybrid, two directional couplers to inject the local oscillator signal, two superconductor-insulator-superconductor (SIS) junctions, three signal-termination loads, and two planar IF/bandpass-filter/dc-bias circuits. The instrument that we have constructed presents excellent performance as demonstrated by two important figures of merit: receiver noise temperature and sideband ratio. Across the entire band, the uncorrected single-sideband noise temperature is below 500 K and reaches 190 K at the best operating point. The sideband ratio is greater than 10 dB over most of the frequency operating range. Superconducting junctions containing AlOx- and AlN-tunnel barriers were tested.

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ER -

Design and Performance of a 600-720-GHz Sideband-Separating Receiver Using {{AlO}}_{x} and AlN SIS Junctions

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