Spektr-RG
Mission type | X-ray astronomy[1] |
---|---|
Operator | Russian Space Research Institute, German Aerospace Center |
COSPAR ID | 2019-040A |
SATCAT no. | 44432 |
Website | srg.iki.rssi.ru |
Mission duration | Planned: 6.5 years[1] Elapsed: 5 years, 5 months, 8 days |
Spacecraft properties | |
Bus | Navigator[2] |
Manufacturer | NPO Lavochkin, Max Planck Institute for Extraterrestrial Physics |
Launch mass | 2,712 kg (5,979 lb)[1] |
Payload mass | 1,210 kg (2,670 lb)[1] |
Power | 1.8 kW |
Start of mission | |
Launch date | 13 July 2019, 12:31UTC[1][3] |
Rocket | Proton-M[1] |
Launch site | Baikonur Site 81/24 |
Orbital parameters | |
Reference system | Sun–Earth L2 |
Regime | Halo orbit |
Main telescope | |
Type | eROSITA: Wolter |
Wavelengths | X-ray |
Instruments | |
eROSITA, ART-XC | |
Spektr program |
Spektr-RG (Russian: Спектр-РГ, Spectrum + Röntgen + Gamma; also called Spectrum-X-Gamma, SRG, SXG) is a Russian–German high-energy astrophysics space observatory which was launched on 13 July 2019.[4] It follows on from the Spektr-R satellite telescope launched in 2011.[5]
History
The original idea for this X-ray observatory satellite orbiting above Earth’s atmosphere, which filters X-rays, was first proposed in the 1980s by Rashid Sunyaev of the Russian Space Research Institute in the Soviet Union. Twenty institutions from twelve countries came together to design a large observatory with five telescopes. However, after the collapse of the Soviet Union, the mission was abandoned due to cost-cutting from the Russian space program Roscosmos. The project was resurrected in 2003 with a scaled-down design.[6]
Overview
The primary instrument of the mission is eROSITA, built by the Max Planck Institute for Extraterrestrial Physics (MPE) in Germany. It will conduct a seven-year X-ray survey,[7] the first in the medium X-ray band less than 10 keV energies, and the first to map an estimated 100,000 galaxy clusters.[8] This survey may detect new clusters of galaxies and active galactic nuclei. The second instrument, ART-XC, is a Russian high-energy X-ray telescope capable of detecting supermassive black holes.[8]
Spacecraft
The Spektr-RG mission concept was published in 2005.[9] Construction was finished in 2016, and by mid-2018 it was under integration and testing. It was scheduled to be launched in June 2019 but was delayed to 12 July, before the flight was postponed at the last moment. It launched the next day, 13 July 2019, from Baikonur Site 81/24.[1] The observatory was integrated into a Navigator satellite bus,[10] produced by NPO Lavochkin.[11]
Mission profile and orbit
The spacecraft will enter an orbit around the Sun, circling the Sun-Earth L2 Lagrangian point in a halo orbit, about 1.5 million kilometres away from Earth. Cruise to that location will take three months, during which the two telescopes will be checked out and calibrated. The next four years will be spent performing eight all-sky surveys. As a goal, the three years after that are planned for observations of selected galaxy clusters and AGNs (Active Galactic Nuclei).[12]
On Monday 21 October 2019, Spektr-RG completed a 100-day cruise to L2-point. On 17 October 2019, the main eROSITA instrument achieved first light.[13]
Instruments
eROSITA[7] | ART-XC[14] | |
---|---|---|
Organisation | MPE | IKI / VNIIEF |
Telescope type | Wolter | Wolter |
Wavelength | X-ray | X-ray |
Mass | 810 kg | 350 kg |
Sensitivity range | 0.3–10 keV | 4–30 keV |
Field of view | 1 degree | 30 arcminutes |
Angular resolution | 15 arcseconds | 45 arcseconds |
Sensor area | 2,400 cm2 at 1 keV | 450 cm2 at 8 keV |
Optical mission support
Russian
- BTA-6
- Caucasus Mountain Observatory
- RTT-150
- Sayan Solar Observatory
- International Scientific Optical Network
German
- Las Campanas Observatory
- Cerro Tololo Inter-American Observatory
- Paranal Observatory
- La Silla Observatory
See also
- IXPE—a planned high-resolution X-ray telescope
- List of X-ray space telescopes
- ROSAT—observed at similar X-ray energies in the 1990s
- TAUVEX—an instrument originally planned for Spektr-RG; it was built but never flown
References
- ^ a b c d e f g Zak, Anatoly (16 April 2016). "Spektr-RG to expand horizons of X-ray astronomy". Russian Space Web. Retrieved 16 September 2016.
- ^ Gunter Dirk Krebs. "Spektr-RG (SXG)". Retrieved 4 February 2011.
- ^ ROSCOSMOS. "Spektr-RG (SXG)". Retrieved 20 June 2019.
- ^ Howell, Elizabeth (13 July 2019). "Russia Launches Spektr-RG, a New X-Ray Observatory, into Space". Space.com. Retrieved 13 July 2019.
- ^ "Russia Successfully Launches Next-Generation Space Telescope". RadioFreeEurope/RadioLiberty. Retrieved 16 July 2019.
- ^ Clery, Daniel (15 July 2019). "Update: Telescope designed to study mysterious dark energy keeps Russia's space science hopes alive". Science. American Association for the Advancement of Science. doi:10.1126/science.aay3154. Retrieved 16 July 2019.
- ^ a b "eROSITA Technical Performance". Max Planck Institute for Extraterrestrial Physics. Retrieved 14 June 2019.
- ^ a b Clery, Daniel (10 July 2019). "Telescope designed to study mysterious dark energy keeps Russia's space science hopes alive". Science. Retrieved 15 June 2019.
- ^ "Spectrum-RG/eRosita/Lobster mission definition document". Russian Space Research Institute. 30 October 2005. Retrieved 4 February 2011.
- ^ Zak, Anatoly (19 June 2019). "The Navigator satellite bus". Russian Space Web. Retrieved 13 July 2019.
- ^ Graham, William (13 July 2019). "Russian Proton-M launches Spektr-RG observatory". NASASpaceFlight.com. Retrieved 15 June 2019.
- ^ "SRG (Spectrum Roentgen Gamma) – Satellite Missions – eoPortal Directory". directory.eoportal.org. Retrieved 20 June 2019.
- ^ German X-ray telescope achieves ‘first light’. Spaceflight Now (23 October 2019). Retrieved on 2020-07-01.
- ^ ART-XC / SRG overview. M. Pavlinsky; V. Levin; V. Akimov; A. Krivchenko; A. Rotin; M. Kuznetsova; I. Lapshov; A. Tkachenko; R. Krivonos; N. Semena; M. Buntov; A. Glushenko; V. Arefiev; A. Yaskovich; S. Grebenev; S. Sazonov; A. Lutovinov; S. Molkov; D. Serbinov; M. Kudelin; T. Drozdova; S. Voronkov; R. Sunyaev; E. Churazov; M. Gilfanov; B. Ramsey; S. L. O'Dell; J. Kolodziejczak; V. Zavlin; D. Swartz. Proceedings Volume 10699, Space Telescopes and Instrumentation 2018: Ultraviolet to Gamma Ray; 106991Y doi:10.1117/12.2312053 6 July 2018.