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Main Authors: Nell, Nicholas, Kruczek, Nicholas, France, Kevin, Ulrich, Stefan, Behr, Patrick, Farr, Emily
Format: Preprint
Published: 2024
Subjects:
Online Access:https://arxiv.org/abs/2401.14475
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author Nell, Nicholas
Kruczek, Nicholas
France, Kevin
Ulrich, Stefan
Behr, Patrick
Farr, Emily
author_facet Nell, Nicholas
Kruczek, Nicholas
France, Kevin
Ulrich, Stefan
Behr, Patrick
Farr, Emily
contents The Far- and Lyman-Ultraviolet Imaging Demonstrator (FLUID) is a rocket-borne arcsecond-level ultraviolet (UV) imaging instrument covering four bands between 92 -- 193 nm. FLUID will observe nearby galaxies to find and characterize the most massive stars that are the primary drivers of the chemical and dynamical evolution of galaxies, and the co-evolution of the surrounding galactic environment. The FLUID short wave channel is designed to suppress efficiency at Lyman-$α$ (121.6 nm), while enhancing the reflectivity of shorter wavelengths. Utilizing this technology, FLUID will take the first ever images of local galaxies isolated in the Lyman ultraviolet (90 -- 120 nm). As a pathfinder instrument, FLUID will employ and increase the TRL of band-selecting UV coatings, and solar-blind UV detector technologies including microchannel plate and solid state detectors; technologies prioritized in the 2022 NASA Astrophysical Biennial Technology Report. These technologies enable high throughput and high sensitivity observations in the four co-aligned UV imaging bands that make up the FLUID instrument. We present the design of FLUID, status on the technology development, and results from initial assembly and calibration of the FLUID instrument.
format Preprint
id arxiv_https___arxiv_org_abs_2401_14475
institution arXiv
publishDate 2024
record_format arxiv
spellingShingle FLUID: A rocket-borne pathfinder instrument for high efficiency UV band selection imaging
Nell, Nicholas
Kruczek, Nicholas
France, Kevin
Ulrich, Stefan
Behr, Patrick
Farr, Emily
Instrumentation and Methods for Astrophysics
The Far- and Lyman-Ultraviolet Imaging Demonstrator (FLUID) is a rocket-borne arcsecond-level ultraviolet (UV) imaging instrument covering four bands between 92 -- 193 nm. FLUID will observe nearby galaxies to find and characterize the most massive stars that are the primary drivers of the chemical and dynamical evolution of galaxies, and the co-evolution of the surrounding galactic environment. The FLUID short wave channel is designed to suppress efficiency at Lyman-$α$ (121.6 nm), while enhancing the reflectivity of shorter wavelengths. Utilizing this technology, FLUID will take the first ever images of local galaxies isolated in the Lyman ultraviolet (90 -- 120 nm). As a pathfinder instrument, FLUID will employ and increase the TRL of band-selecting UV coatings, and solar-blind UV detector technologies including microchannel plate and solid state detectors; technologies prioritized in the 2022 NASA Astrophysical Biennial Technology Report. These technologies enable high throughput and high sensitivity observations in the four co-aligned UV imaging bands that make up the FLUID instrument. We present the design of FLUID, status on the technology development, and results from initial assembly and calibration of the FLUID instrument.
title FLUID: A rocket-borne pathfinder instrument for high efficiency UV band selection imaging
topic Instrumentation and Methods for Astrophysics
url https://arxiv.org/abs/2401.14475