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GUSTO (telescope)

From Wikipedia, the free encyclopedia

An artist's concept of the GUSTO mission gondola carrying the telescope, cryocoolers, and solar panels. Mass is approx. 2 tons.
An artist's concept of the GUSTO mission gondola carrying the telescope, cryocoolers, and solar panels. Mass is approx. 2 tons.

The GUSTO (Galactic/Extragalactic ULDB Spectroscopic Terahertz Observatory) mission is a planned high-altitude balloon mission that will carry an infrared telescope to measure emissions from the interstellar medium. The mission is being developed by NASA's Explorers Program for launch in December 2021 from Antarctica.[1]


GUSTO will provide the first complete study of the life cycle of the interstellar medium, the gas and dust from which all stars and planets are formed.[2][unreliable source?] The mission is a Mission of Opportunity (MO) of NASA's Explorer's Program,[2][unreliable source?][3] and is expected to cost about $40 million.[4][5] It follows from the experience gained from two precursor or 'pathfinder' missions: the Stratospheric Terahertz Observatory (STO) launched on 15 January 2012, and STO-2 launched on 8 December 2016.[4][5] The principal investigator is Christopher Walker at the University of Arizona in Tucson.[4][5]

The telescope will be lifted by a superpressure balloon to the stratosphere at an altitude of 36 km (118,000 ft) above Antarctica, at the edge of space.[1][6] It will map portions of the Milky Way galaxy and the Large Magellanic Cloud in three specific regions of the far infrared (FIR) portion of the electromagnetic spectrum called the "terahertz lines of carbon, nitrogen and oxygen".[6]

The flight is scheduled to launch in December 2021 from McMurdo, Antarctica,[1][5] and is expected to stay airborne for 100 to 170 days, depending on weather conditions.[1][4] GUSTO will be controlled and monitored from several stations around the United States.[5]


The objective of GUSTO is to provide the first complete spectroscopic study of all phases of the stellar life cycle, from the formation of molecular clouds (also called stellar nursery), through star birth and evolution, to the formation of interstellar gas clouds and the re-initiation of the cycle.[4] This will allow to determine the composition, energetics, and dynamics of the interstellar medium.[2][unreliable source?] It will do so by observing simultaneously in three specific far infrared (FIR) wavelengths.[2][unreliable source?] The researchers state that "this unique and novel combination of data will provide information needed to untangle the complexities of the interstellar medium."[6]

Telescope and detectors

The gondola, avionics and solar panels will be provided by the Johns Hopkins Applied Physics Laboratory. The University of Arizona in Tucson will provide the telescope that will incorporate an array of cryogenic Terahertz radiation superconducting heterodyne detectors built in a collaborative effort with the Massachusetts Institute of Technology, Arizona State University, the Netherlands Institute for Space Research (SRON), Virginia Diodes (VDI), and Ball Aerospace.[4][5][6] The detectors will measure the terahertz lines of carbon, nitrogen and oxygen, at 158 μm, 63 μm, and 205 μm, respectively.[2][unreliable source?]

The gondola and instruments carried by the balloon have an approximate mass of 2 t (4,400 lb),[5] and measures about 6 m wide by 6 m height (20 ft x 20 ft). The telescope has a 1 m (39 in) mirror,[4] that will direct light to a series of superconducting detectors contained inside a cryostat that will keep them at −269 °C (−452.20 °F).[5]


The superpressure balloon to be used is called Ultralong-Duration Balloon (ULDB),[4] where the volume of the balloon is kept relatively constant independent of the changes in the temperature of the contained lifting gas.[1] It will be provided by NASA's Balloon Program Office.[2][unreliable source?]

The flight will make use of a weather phenomenon known as an anticyclone that occurs during the Antarctic summer. The wind vortex will take the balloon on a circular flight trajectory over Antarctica for 100 to 170 days.[1][4] Recovery might not be possible for GUSTO, as the southern winter progresses the polar vortex will weaken and the balloon will leave Antarctica and drift northward.[5]


  1. ^ a b c d e f GUSTO: NASA approved the budget for balloon-borne telescope mission. Netherlands Institute for Space Research (SRON). The Netherlands. 29 March 2018.
  2. ^ a b c d e f The GUSTO balloon mission. Bernasconi, Pietro; Walker, Christopher; Kulesa, Craig. 42nd COSPAR Scientific Assembly. Held 14–22 July 2018, in Pasadena, California, USA, Abstract id. PSB.1-31-18.
  3. ^ Explorers Program - Missions of Opportunity. NASA. Accessed on 25 October 2019.
  4. ^ a b c d e f g h i NASA goes for the GUSTO to study Milky Way. Jim Sharkey, Spaceflight Insider. 27 March 2017.
  5. ^ a b c d e f g h i 100 Days Over the South Pole. Damond Benningfield, Air & Space Magazine. February 2018.
  6. ^ a b c d From SRON: "Dutch 'cameras' on NASA Science Mission 'First complete study of all phases of the stellar life cycle.' " SRON. Published by Science Springs. 28 March 2017.
This page was last edited on 12 January 2021, at 22:08
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