The Origins Space Telescope: A NASA 2020 Decadal Study - Observatoire de Paris
Proceedings The Cosmic Wheel and the Legacy of the AKARI archive: from galaxies and stars to planets and life. Edited by Takafumi Ootsubo Year : 2018

The Origins Space Telescope: A NASA 2020 Decadal Study

Margaret Meixner
  • Function : Author
Asantha Cooray
  • Function : Author
David Leisawitz
  • Function : Author
Johannes Staguhn
  • Function : Author
Lee Armus
  • Function : Author
Cara Battersby
  • Function : Author
James Bauer
  • Function : Author
Edwin Bergin
  • Function : Author
Matt Bradford
  • Function : Author
Kimberly Ennicosmith
  • Function : Author
Jonathan Fortney
  • Function : Author
Lisa Kaltenegger
  • Function : Author
Gary Melnick
  • Function : Author
Stefanie Milam
  • Function : Author
Desika Narayanan
  • Function : Author
Deborah Padgett
  • Function : Author
Klaus Pontopiddan
  • Function : Author
Alexandra Pope
  • Function : Author
Thomas Roellig
  • Function : Author
Karin Sandstrom
  • Function : Author
Kevin Stevenson
  • Function : Author
Kate Y. L. Su
  • Function : Author
Joaquin Vieira
  • Function : Author
Edward Wright
  • Function : Author
Jonas Zmuidzinas
  • Function : Author
Sean Carey
  • Function : Author
Susanne Aalto
  • Function : Author
Douglas Scott
  • Function : Author
Maryvonne Gerin
  • Function : Author
Itsuki Sakon
  • Function : Author
Frank Helmich
  • Function : Author
Roland Vavrek
  • Function : Author
Karl Menten
  • Function : Author
Denis Burgarella
  • Function : Author
Ruth Carter
  • Function : Author

Abstract

The Origins Space Telescope is an evolving concept for the Far-Infrared Surveyor mission, and the subject of one of the four science and technology definition studies supported by NASA to prepare for the 2020 Astronomy and Astrophysics Decadal Survey. The Origins Space Telescope (OST) will carry out observations in the long infrared wavelengths (5 to 500 micrometers). At mid-infrared wavelengths (10-30 micrometers) OST will be a factor of 30-100 more sensitive than Spitzer and JWST, while at far-infrared wavelengths OST will offer a factor of 10,000 improvement over Herschel, AKARI and SOFIA. OST instruments will be capable of tracing our origins from first stars and galaxies when the universe was less than 500 million years old to life today in our galaxy after some 13 billion years. The observations will involve 3D spectroscopic surveys of the distant universe, a transformative study of habitable planetary system formation from the interstellar medium to life-bearing worlds, and the characterization of bio-signatures in extra-solar planets around Milky Way dwarf stars.
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obspm-03997283 , version 1 (20-02-2023)

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Margaret Meixner, Asantha Cooray, David Leisawitz, Johannes Staguhn, Lee Armus, et al.. The Origins Space Telescope: A NASA 2020 Decadal Study. The Cosmic Wheel and the Legacy of the AKARI archive: from galaxies and stars to planets and life. Edited by Takafumi Ootsubo, pp.59 - 65, 2018. ⟨obspm-03997283⟩
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