Integrated SubmmWave Receiver: Development and Applications

A superconducting integrated receiver (SIR) comprises in a single chip a planar antenna combined with a superconductor-insulator-superconductor (SIS) mixer, a superconducting Flux Flow Oscillator (FFO) acting as a Local Oscillator (LO) and a second SIS harmonic mixer (HM) for the FFO phase locking....

Full description

Bibliographic Details
Main Authors: Koshelets, Valery P., Birk, Manfred, Boersma, Dick, Dercksen, Johannes, Dmitriev, Pavel, Ermakov, Andrey B., Filippenko, Lyudmila V., Golstein, Hans, Hoogeveen, Ruud W.M., de Jong, Leo, Khudchenko, Andrey V., Kinev, Nickolay V., Kiselev, Oleg S., Kudryashov, Pavel V., van Kuik, Bart, de Lange, Arno, de Lange, Gert, Lapitsky, Irina L., Pripolzin, Sergey I., van Rantwijk, Joris, Selig, Avri M., Sobolev, Alexander S., Torgashin, Mikhail Yu, Vaks, Vladimir L., de Vries, Ed, Wagner, Georg, Yagoubov, Pavel
Other Authors: Sidorenko, Anatolie
Format: Text
Language:unknown
Published: Springer-Verlag Berlin Heidelberg 2011
Subjects:
Experimentelle Verfahren
Kiruna
Online Access:http://elib.dlr.de/74498/
id ftdlr:oai:elib.dlr.de:74498
record_format openpolar
institution Open Polar
collection German Aerospace Center: elib - DLR electronic library
op_collection_id ftdlr
language unknown
topic Experimentelle Verfahren
spellingShingle Experimentelle Verfahren
Koshelets, Valery P.
Birk, Manfred
Boersma, Dick
Dercksen, Johannes
Dmitriev, Pavel
Ermakov, Andrey B.
Filippenko, Lyudmila V.
Golstein, Hans
Hoogeveen, Ruud W.M.
de Jong, Leo
Khudchenko, Andrey V.
Kinev, Nickolay V.
Kiselev, Oleg S.
Kudryashov, Pavel V.
van Kuik, Bart
de Lange, Arno
de Lange, Gert
Lapitsky, Irina L.
Pripolzin, Sergey I.
van Rantwijk, Joris
Selig, Avri M.
Sobolev, Alexander S.
Torgashin, Mikhail Yu
Vaks, Vladimir L.
de Vries, Ed
Wagner, Georg
Yagoubov, Pavel
Integrated SubmmWave Receiver: Development and Applications
topic_facet Experimentelle Verfahren
description A superconducting integrated receiver (SIR) comprises in a single chip a planar antenna combined with a superconductor-insulator-superconductor (SIS) mixer, a superconducting Flux Flow Oscillator (FFO) acting as a Local Oscillator (LO) and a second SIS harmonic mixer (HM) for the FFO phase locking. In this report, an overview of the SIR and FFO developments and optimizations is presented. Improving on the fully Nb-based SIR we have developed and studied Nb–AlN–NbN circuits, which exhibit an extended operation frequency range. Continuous tuning of the phase locked frequency has been experimentally demonstrated at any frequency in the range 350–750GHz. The FFO free-running linewidth has been measured between 1 and 5MHz, which allows to phase lock up to 97% of the emitted FFO power. The output power of the FFO is sufficient to pump the matched SIS mixer. Therefore, it is concluded that the Nb–AlN–NbN FFOs are mature enough for practical applications. These achievements enabled the development of a 480–650GHz integrated receiver for the atmospheric-research instrument TErahertz and submillimeter LImb Sounder (TELIS). This balloon-borne instrument is a three-channel superconducting heterodyne spectrometer for the detection of spectral emission lines of stratospheric trace gases that have their rotational transitions at THz frequencies. One of the channels is based on the SIR technology. We demonstrate for the first time the capabilities of the SIR technology for heterodyne spectroscopy in general, and atmospheric limb sounding in particular. We also show that the application of SIR technology is not limited to laboratory environments, but that it is well suited for remote operation under harsh environmental conditions. Light weight and low power consumption combined with broadband operation and nearly quantum limited sensitivity make the SIR a perfect candidate for future airborne and space-borne missions. The noise temperature of the SIR was measured to be as low as 120K in double sideband operation, with an intermediate frequency band of 4–8GHz. The spectral resolution is well below 1MHz, confirmed by our measurements. Remote control of the SIR under flight conditions has been demonstrated in a successful balloon flight in Kiruna, Sweden. Capability of the SIR for high-resolution spectroscopy has been successfully proven also in a laboratory environment by gas cell measurements. The possibility to use SIR devices for the medical analysis of exhaled air will be discussed. Many medically relevant gases have spectral lines in the sub-terahertz range and can be detected by an SIR-based spectrometer. The SIR can be considered as an operational device, ready for many applications.
author2 Sidorenko, Anatolie
format Text
author Koshelets, Valery P.
Birk, Manfred
Boersma, Dick
Dercksen, Johannes
Dmitriev, Pavel
Ermakov, Andrey B.
Filippenko, Lyudmila V.
Golstein, Hans
Hoogeveen, Ruud W.M.
de Jong, Leo
Khudchenko, Andrey V.
Kinev, Nickolay V.
Kiselev, Oleg S.
Kudryashov, Pavel V.
van Kuik, Bart
de Lange, Arno
de Lange, Gert
Lapitsky, Irina L.
Pripolzin, Sergey I.
van Rantwijk, Joris
Selig, Avri M.
Sobolev, Alexander S.
Torgashin, Mikhail Yu
Vaks, Vladimir L.
de Vries, Ed
Wagner, Georg
Yagoubov, Pavel
author_facet Koshelets, Valery P.
Birk, Manfred
Boersma, Dick
Dercksen, Johannes
Dmitriev, Pavel
Ermakov, Andrey B.
Filippenko, Lyudmila V.
Golstein, Hans
Hoogeveen, Ruud W.M.
de Jong, Leo
Khudchenko, Andrey V.
Kinev, Nickolay V.
Kiselev, Oleg S.
Kudryashov, Pavel V.
van Kuik, Bart
de Lange, Arno
de Lange, Gert
Lapitsky, Irina L.
Pripolzin, Sergey I.
van Rantwijk, Joris
Selig, Avri M.
Sobolev, Alexander S.
Torgashin, Mikhail Yu
Vaks, Vladimir L.
de Vries, Ed
Wagner, Georg
Yagoubov, Pavel
author_sort Koshelets, Valery P.
title Integrated SubmmWave Receiver: Development and Applications
title_short Integrated SubmmWave Receiver: Development and Applications
title_full Integrated SubmmWave Receiver: Development and Applications
title_fullStr Integrated SubmmWave Receiver: Development and Applications
title_full_unstemmed Integrated SubmmWave Receiver: Development and Applications
title_sort integrated submmwave receiver: development and applications
publisher Springer-Verlag Berlin Heidelberg
publishDate 2011
url http://elib.dlr.de/74498/
geographic Kiruna
geographic_facet Kiruna
genre Kiruna
genre_facet Kiruna
op_relation Koshelets, Valery P. und Birk, Manfred und Boersma, Dick und Dercksen, Johannes und Dmitriev, Pavel und Ermakov, Andrey B. und Filippenko, Lyudmila V. und Golstein, Hans und Hoogeveen, Ruud W.M. und de Jong, Leo und Khudchenko, Andrey V. und Kinev, Nickolay V. und Kiselev, Oleg S. und Kudryashov, Pavel V. und van Kuik, Bart und de Lange, Arno und de Lange, Gert und Lapitsky, Irina L. und Pripolzin, Sergey I. und van Rantwijk, Joris und Selig, Avri M. und Sobolev, Alexander S. und Torgashin, Mikhail Yu und Vaks, Vladimir L. und de Vries, Ed und Wagner, Georg und Yagoubov, Pavel (2011) Integrated SubmmWave Receiver: Development and Applications. In: Fundamentals of Superconducting Nano Electronics Springer-Verlag Berlin Heidelberg. Seiten 263-296.
_version_ 1766058455576084480
spelling ftdlr:oai:elib.dlr.de:74498 2023-05-15T17:04:22+02:00 Integrated SubmmWave Receiver: Development and Applications Koshelets, Valery P. Birk, Manfred Boersma, Dick Dercksen, Johannes Dmitriev, Pavel Ermakov, Andrey B. Filippenko, Lyudmila V. Golstein, Hans Hoogeveen, Ruud W.M. de Jong, Leo Khudchenko, Andrey V. Kinev, Nickolay V. Kiselev, Oleg S. Kudryashov, Pavel V. van Kuik, Bart de Lange, Arno de Lange, Gert Lapitsky, Irina L. Pripolzin, Sergey I. van Rantwijk, Joris Selig, Avri M. Sobolev, Alexander S. Torgashin, Mikhail Yu Vaks, Vladimir L. de Vries, Ed Wagner, Georg Yagoubov, Pavel Sidorenko, Anatolie 2011 http://elib.dlr.de/74498/ unknown Springer-Verlag Berlin Heidelberg Koshelets, Valery P. und Birk, Manfred und Boersma, Dick und Dercksen, Johannes und Dmitriev, Pavel und Ermakov, Andrey B. und Filippenko, Lyudmila V. und Golstein, Hans und Hoogeveen, Ruud W.M. und de Jong, Leo und Khudchenko, Andrey V. und Kinev, Nickolay V. und Kiselev, Oleg S. und Kudryashov, Pavel V. und van Kuik, Bart und de Lange, Arno und de Lange, Gert und Lapitsky, Irina L. und Pripolzin, Sergey I. und van Rantwijk, Joris und Selig, Avri M. und Sobolev, Alexander S. und Torgashin, Mikhail Yu und Vaks, Vladimir L. und de Vries, Ed und Wagner, Georg und Yagoubov, Pavel (2011) Integrated SubmmWave Receiver: Development and Applications. In: Fundamentals of Superconducting Nano Electronics Springer-Verlag Berlin Heidelberg. Seiten 263-296. Experimentelle Verfahren Beitrag in einem Lehr- oder Fachbuch NonPeerReviewed 2011 ftdlr 2016-03-28T20:56:32Z A superconducting integrated receiver (SIR) comprises in a single chip a planar antenna combined with a superconductor-insulator-superconductor (SIS) mixer, a superconducting Flux Flow Oscillator (FFO) acting as a Local Oscillator (LO) and a second SIS harmonic mixer (HM) for the FFO phase locking. In this report, an overview of the SIR and FFO developments and optimizations is presented. Improving on the fully Nb-based SIR we have developed and studied Nb–AlN–NbN circuits, which exhibit an extended operation frequency range. Continuous tuning of the phase locked frequency has been experimentally demonstrated at any frequency in the range 350–750GHz. The FFO free-running linewidth has been measured between 1 and 5MHz, which allows to phase lock up to 97% of the emitted FFO power. The output power of the FFO is sufficient to pump the matched SIS mixer. Therefore, it is concluded that the Nb–AlN–NbN FFOs are mature enough for practical applications. These achievements enabled the development of a 480–650GHz integrated receiver for the atmospheric-research instrument TErahertz and submillimeter LImb Sounder (TELIS). This balloon-borne instrument is a three-channel superconducting heterodyne spectrometer for the detection of spectral emission lines of stratospheric trace gases that have their rotational transitions at THz frequencies. One of the channels is based on the SIR technology. We demonstrate for the first time the capabilities of the SIR technology for heterodyne spectroscopy in general, and atmospheric limb sounding in particular. We also show that the application of SIR technology is not limited to laboratory environments, but that it is well suited for remote operation under harsh environmental conditions. Light weight and low power consumption combined with broadband operation and nearly quantum limited sensitivity make the SIR a perfect candidate for future airborne and space-borne missions. The noise temperature of the SIR was measured to be as low as 120K in double sideband operation, with an intermediate frequency band of 4–8GHz. The spectral resolution is well below 1MHz, confirmed by our measurements. Remote control of the SIR under flight conditions has been demonstrated in a successful balloon flight in Kiruna, Sweden. Capability of the SIR for high-resolution spectroscopy has been successfully proven also in a laboratory environment by gas cell measurements. The possibility to use SIR devices for the medical analysis of exhaled air will be discussed. Many medically relevant gases have spectral lines in the sub-terahertz range and can be detected by an SIR-based spectrometer. The SIR can be considered as an operational device, ready for many applications. Text Kiruna German Aerospace Center: elib - DLR electronic library Kiruna

Similar Items