Far-infrared Array Receiver (FAR) for SOFIA

C. K. Walker; C. E. Groppi; C. Y Drouet d'Aubigny; G. Chen; R. Schieder; G. Narayanan; A. Lichtenberger; P. Siegel

Far-infrared Array Receiver (FAR) for SOFIA

C. K. Walker, C. E. Groppi, C. Y Drouet d'Aubigny, G. Chen, R. Schieder, G. Narayanan, A. Lichtenberger, P. Siegel

Research output: Chapter in Book/Report/Conference proceeding › Conference contribution

Abstract

In this paper, we present the design for a 16-channel heterodyne array receiver for use on SOFIA. The array will be capable of using either hot-electron bolometers or membrane mounted Schottky diodes in efficient, low-cost waveguide mounts. Focal plane arrays will be constructed to target astrophysically important lines between approximately 1.9 and 3 THz. Due to the prevailing physical conditions in the interstellar medium, this frequency range is one of the richest in the FIR portion of the spectrum. An array receiver designed for this wavelength range will make excellent use of the telescope and the available atmospheric transmission, and will provide a new perspective on stellar, chemical, and galaxy evolution in the present as well as past epochs. The proposed system uses the most sensitive detectors available in an efficient optical system. The local oscillator will be a compact CO ₂ pumped far-infrared laser specifically developed for SOFIA. The backend spectrometer will be a 4×4 array of acousto-optic spectrometers (AOS). The spectrometer utilizes proven hardware and technologies to provide broadband performance (≥1 GHz per AOS channel) and high spectral resolution (1 MHz). The proposed instrument will be the fastest and most sensitive heterodyne receiver ever to operate in its wavelength regime.

Original language	English (US)
Title of host publication	Proceedings of SPIE - The International Society for Optical Engineering
Publisher	Society of Photo-Optical Instrumentation Engineers
Pages	125-136
Number of pages	12
Volume	4014
State	Published - 2000
Externally published	Yes
Event	Airborne Telescope Systems - Munich, Ger Duration: Mar 27 2000 → Mar 28 2000

Other

Other	Airborne Telescope Systems
City	Munich, Ger
Period	3/27/00 → 3/28/00

ASJC Scopus subject areas

Electrical and Electronic Engineering
Condensed Matter Physics

Cite this

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title = "Far-infrared Array Receiver (FAR) for SOFIA",

abstract = "In this paper, we present the design for a 16-channel heterodyne array receiver for use on SOFIA. The array will be capable of using either hot-electron bolometers or membrane mounted Schottky diodes in efficient, low-cost waveguide mounts. Focal plane arrays will be constructed to target astrophysically important lines between approximately 1.9 and 3 THz. Due to the prevailing physical conditions in the interstellar medium, this frequency range is one of the richest in the FIR portion of the spectrum. An array receiver designed for this wavelength range will make excellent use of the telescope and the available atmospheric transmission, and will provide a new perspective on stellar, chemical, and galaxy evolution in the present as well as past epochs. The proposed system uses the most sensitive detectors available in an efficient optical system. The local oscillator will be a compact CO 2 pumped far-infrared laser specifically developed for SOFIA. The backend spectrometer will be a 4×4 array of acousto-optic spectrometers (AOS). The spectrometer utilizes proven hardware and technologies to provide broadband performance (≥1 GHz per AOS channel) and high spectral resolution (1 MHz). The proposed instrument will be the fastest and most sensitive heterodyne receiver ever to operate in its wavelength regime. ",

author = "Walker, {C. K.} and Groppi, {C. E.} and d'Aubigny, {C. Y Drouet} and G. Chen and R. Schieder and G. Narayanan and A. Lichtenberger and P. Siegel",

year = "2000",

language = "English (US)",

volume = "4014",

pages = "125--136",

booktitle = "Proceedings of SPIE - The International Society for Optical Engineering",

publisher = "Society of Photo-Optical Instrumentation Engineers",

note = "Airborne Telescope Systems ; Conference date: 27-03-2000 Through 28-03-2000",

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AU - Walker, C. K.

AU - Groppi, C. E.

AU - d'Aubigny, C. Y Drouet

AU - Chen, G.

AU - Schieder, R.

AU - Narayanan, G.

AU - Lichtenberger, A.

AU - Siegel, P.

PY - 2000

Y1 - 2000

N2 - In this paper, we present the design for a 16-channel heterodyne array receiver for use on SOFIA. The array will be capable of using either hot-electron bolometers or membrane mounted Schottky diodes in efficient, low-cost waveguide mounts. Focal plane arrays will be constructed to target astrophysically important lines between approximately 1.9 and 3 THz. Due to the prevailing physical conditions in the interstellar medium, this frequency range is one of the richest in the FIR portion of the spectrum. An array receiver designed for this wavelength range will make excellent use of the telescope and the available atmospheric transmission, and will provide a new perspective on stellar, chemical, and galaxy evolution in the present as well as past epochs. The proposed system uses the most sensitive detectors available in an efficient optical system. The local oscillator will be a compact CO 2 pumped far-infrared laser specifically developed for SOFIA. The backend spectrometer will be a 4×4 array of acousto-optic spectrometers (AOS). The spectrometer utilizes proven hardware and technologies to provide broadband performance (≥1 GHz per AOS channel) and high spectral resolution (1 MHz). The proposed instrument will be the fastest and most sensitive heterodyne receiver ever to operate in its wavelength regime.

AB - In this paper, we present the design for a 16-channel heterodyne array receiver for use on SOFIA. The array will be capable of using either hot-electron bolometers or membrane mounted Schottky diodes in efficient, low-cost waveguide mounts. Focal plane arrays will be constructed to target astrophysically important lines between approximately 1.9 and 3 THz. Due to the prevailing physical conditions in the interstellar medium, this frequency range is one of the richest in the FIR portion of the spectrum. An array receiver designed for this wavelength range will make excellent use of the telescope and the available atmospheric transmission, and will provide a new perspective on stellar, chemical, and galaxy evolution in the present as well as past epochs. The proposed system uses the most sensitive detectors available in an efficient optical system. The local oscillator will be a compact CO 2 pumped far-infrared laser specifically developed for SOFIA. The backend spectrometer will be a 4×4 array of acousto-optic spectrometers (AOS). The spectrometer utilizes proven hardware and technologies to provide broadband performance (≥1 GHz per AOS channel) and high spectral resolution (1 MHz). The proposed instrument will be the fastest and most sensitive heterodyne receiver ever to operate in its wavelength regime.

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M3 - Conference contribution

AN - SCOPUS:0033697513

VL - 4014

SP - 125

EP - 136

BT - Proceedings of SPIE - The International Society for Optical Engineering

PB - Society of Photo-Optical Instrumentation Engineers

T2 - Airborne Telescope Systems

Y2 - 27 March 2000 through 28 March 2000

ER -

Far-infrared Array Receiver (FAR) for SOFIA

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ASJC Scopus subject areas

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