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Main Authors: Auriacombe, Olivier, Sobis, Peter J., Drakinskiy, Vladimir, Emrich, Anders, Stake, Jan
Format: Preprint
Published: 2026
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Online Access:https://arxiv.org/abs/2605.18330
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author Auriacombe, Olivier
Sobis, Peter J.
Drakinskiy, Vladimir
Emrich, Anders
Stake, Jan
author_facet Auriacombe, Olivier
Sobis, Peter J.
Drakinskiy, Vladimir
Emrich, Anders
Stake, Jan
contents Dual-polarization heterodyne receivers operating at 325 GHz, 424 GHz, and 650 GHz at room temperature are presented. Polarimetric measurements are enabled by two orthogonal open-ended E-field probes, co-optimized and integrated with two subharmonic GaAs Schottky-barrier diode mixers. The down-converted signals (IF) are amplified using low-noise InP HEMT amplifiers integrated into the receiver module, along with IF matching networks, dc-bias boards, a shared local oscillator (LO) distribution network, and a single smooth-walled, conical, spline-horn antenna. Maximum cross-polarization isolation of 25 dB, 34 dB, and 25 dB was achieved at 315 GHz, 421 GHz, and 650 GHz, respectively. The measured double-sideband (DSB) receiver noise temperatures are 833 K, 835 K, and 1623 K at 315 GHz, 421 GHz, and 630 GHz, respectively. Stability measurements, with an integration Allan time of more than 10 s, were obtained for all receivers. Overall, the integrated dualpolarization receiver topology achieves excellent sensitivity in a highly compact package, offering an efficient and scalable solution for polarimetric applications in submillimeter-wave remote sensing
format Preprint
id arxiv_https___arxiv_org_abs_2605_18330
institution arXiv
publishDate 2026
record_format arxiv
spellingShingle Compact Dual-Polarization Schottky Barrier Diode Receivers for Submillimeter Wave Remote Sensing
Auriacombe, Olivier
Sobis, Peter J.
Drakinskiy, Vladimir
Emrich, Anders
Stake, Jan
Instrumentation and Detectors
Applied Physics
Dual-polarization heterodyne receivers operating at 325 GHz, 424 GHz, and 650 GHz at room temperature are presented. Polarimetric measurements are enabled by two orthogonal open-ended E-field probes, co-optimized and integrated with two subharmonic GaAs Schottky-barrier diode mixers. The down-converted signals (IF) are amplified using low-noise InP HEMT amplifiers integrated into the receiver module, along with IF matching networks, dc-bias boards, a shared local oscillator (LO) distribution network, and a single smooth-walled, conical, spline-horn antenna. Maximum cross-polarization isolation of 25 dB, 34 dB, and 25 dB was achieved at 315 GHz, 421 GHz, and 650 GHz, respectively. The measured double-sideband (DSB) receiver noise temperatures are 833 K, 835 K, and 1623 K at 315 GHz, 421 GHz, and 630 GHz, respectively. Stability measurements, with an integration Allan time of more than 10 s, were obtained for all receivers. Overall, the integrated dualpolarization receiver topology achieves excellent sensitivity in a highly compact package, offering an efficient and scalable solution for polarimetric applications in submillimeter-wave remote sensing
title Compact Dual-Polarization Schottky Barrier Diode Receivers for Submillimeter Wave Remote Sensing
topic Instrumentation and Detectors
Applied Physics
url https://arxiv.org/abs/2605.18330