Jump to content

SAFARI imaging spectrometer

From Wikipedia, the free encyclopedia

This is an old revision of this page, as edited by Dewritech (talk | contribs) at 21:04, 18 March 2014 (clean up, typo(s) fixed: onboard → on board using AWB). The present address (URL) is a permanent link to this revision, which may differ significantly from the current revision.

The SAFARI imaging spectrometer[1] is the European ‘nerve center’ of Japanese infrared telescope SPICA (Space Infra-Red Telescope for Cosmology and Astrophysics telescope) and is being developed under the leadership of SRON Netherlands Institute for Space Research. SAFARI is an infrared camera with about 6,000 pixels that can make real ‘photos’ of the sky in three adjacent wavelength areas. Using a Fourier transform spectroscopy (FTS) detailed spectral information is obtained, allowing astronomers to determine the chemical composition of the observed celestial sources. TNO is developing the mechanism of this FTS.

Extremely sensitive infrared detectors

Transition Edge Sensors (TES) detectors are extremely sensitive infrared detectors

SRON’s leading role in the development of SAFARI is mainly due to the infrared detectors developed by SRON scientists. Extremely sensitive detectors must be used in SAFARI to gain maximum benefit from the low infrared emissions of SPICA’s cooled mirror. In June 2010, an international evaluation committee selected, out of four different technologies, the Transition Edge Sensor (TES) detectors from SRON together with the associated readout electronics.

No longer blinded by the mirror

The 3.2 meter diameter mirror of SPICA will be cooled to almost absolute zero (-273 °C). Consequently, the detectors will no longer be ‘blinded’ by the heat radiation emitted by the mirror itself and the instruments will therefore be able to detect even weaker infrared sources than the most sensitive instruments on board ESA’s infrared Herschel Space Observatory can. This will allow us to see sources at the level of the cosmic background radiation in the wavelength range between 30 and 210 μm. After its launch, currently planned in 2018,[2] SPICA will thus be able to look even deeper into the universe than Herschel. The space telescope will carry out its exploration from the so-called Second Lagrange point, which is located about 1.5 million kilometers from earth.

Successor to HIFI instrument

SAFARI is the immediate successor to SRON’s molecule hunter HIFI on board the infrared telescope Herschel. The new and unique infrared imaging spectrometer can fully utilize the ultra-sensitive TES detectors in combination with SPICA’s extremely cold mirror to look even deeper into the far-infrared universe than HIFI. SAFARI will search for the first galaxies to determine how they were formed and how they evolve. Nearer by the instrument will be used to study the ice and water vapor in protoplanetary discs – the physical and chemical conditions in these protoplanetary discs ultimately determine the formation of planets. [1]

Leading role of SRON

The SAFARI project is complex from both a technological and organizational viewpoint. As Principal Investigator, SRON coordinates the collaboration between the large number of international partners (including JAXA and European Space Agency ESA). In addition to this, SRON is responsible for the further development and testing of the detectors for SAFARI (an SRON/UK joint venture), the optomechanics, the quality control, the construction and the system testing for the entire instrument. TNO is one of the partners in the project.

References

  1. ^ Goicoechea, J. R.; Isaak, K.; Swinyard, B. (2009). "Exoplanet research with SAFARI: A far-IR imaging spectrometer for SPICA". arXiv:0901.3240 [astro-ph.EP].
  2. ^ "SPICA's Mission". SPICA Website. JAXA. Retrieved January 11, 2011.