Ultra Violet Imaging Telescope (UVIT) on ASTROSAT

Amit Kumar (1); S. K. Ghosh (2); J. Hutchings (3); P.U.Kamath (1),; S.Kathiravan (1); P.K.Mahesh (1); J. Murthy (1); Nagbhushana.S (1); A.K. Pati; (1); M. N.Rao (1); N. K. Rao (1); S.Sriram (1); and S.N.Tandon (1,4) ((1); Indian Institute of Astrophysics; Bangalore; (2) National Centre for Radio; Astrophysics; TIFR; Pune; (3) NRC Herzberg Institute of Astrophysics; Canada,; (4) Inter University Centre for Astronomy; Astrophysics; Pune)

arXiv:1208.4670·astro-ph.IM·June 11, 2015

Ultra Violet Imaging Telescope (UVIT) on ASTROSAT

Amit Kumar (1), S. K. Ghosh (2), J. Hutchings (3), P.U.Kamath (1),, S.Kathiravan (1), P.K.Mahesh (1), J. Murthy (1), Nagbhushana.S (1), A.K. Pati, (1), M. N.Rao (1), N. K. Rao (1), S.Sriram (1), and S.N.Tandon (1,4) ((1), Indian Institute of Astrophysics, Bangalore

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TL;DR

The UVIT on ASTROSAT is a multi-wavelength ultraviolet and visible imaging system with high resolution, designed to observe celestial objects simultaneously in three channels, providing valuable data for astrophysical research.

Contribution

This paper details the comprehensive mechanical, optical, and electrical design of UVIT, a novel multi-wavelength imaging payload on India's ASTROSAT satellite.

Findings

01

Achieves better than 1.8 arc-second resolution in UV images.

02

Implements simultaneous multi-channel imaging in UV and visible bands.

03

Includes innovative baffling and Sun-shield mechanisms to reduce background noise.

Abstract

Ultra Violet Imaging Telescope on ASTROSAT Satellite mission is a suite of Far Ultra Violet (FUV 130 to 180 nm), Near Ultra Violet (NUV 200 to 300 nm) and Visible band (VIS 320 to 550nm) imagers. ASTROSAT is the first multi wavelength mission of INDIA. UVIT will image the selected regions of the sky simultaneously in three channels and observe young stars, galaxies, bright UV Sources. FOV in each of the 3 channels is about 28 arc-minute. Targeted angular resolution in the resulting UV images is better than 1.8 arc-second (better than 2.0 arc-second for the visible channel). Two identical co-aligned telescopes (T1, T2) of Ritchey-Chretien configuration (Primary mirror of 375 mm diameter) collect celestial radiation and feed to the detector system via a selectable filter on a filter wheel mechanism; gratings are available in filter wheels of FUV and NUV channels for slit-less low…

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