The X-Ray Imaging and Spectroscopy Mission (XRISM, pronounced "crism"), formerly the X-ray Astronomy Recovery Mission (XARM), is an X-ray space telescope mission of the Japan Aerospace Exploration Agency (JAXA) in partnership with NASA to provide breakthroughs in the study of structure formation of the universe, outflows from galaxy nuclei, and dark matter.[3][4] As the only international X-ray observatory project of its period, XRISM will function as a next generation space telescope in the X-ray astronomy field, similar to how the James Webb Space Telescope, Fermi Space Telescope, and the Atacama Large Millimeter Array (ALMA) Observatory are placed in their respective fields.[2][5]
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| Names | XRISM ASTRO-H Successor ASTRO-H2 XARM | ||||||
|---|---|---|---|---|---|---|---|
| Mission type | X-ray astronomy | ||||||
| Operator | JAXA | ||||||
| COSPAR ID | 2023-137A | ||||||
| SATCAT no. | 57800 | ||||||
| Website | xrism www | ||||||
| Mission duration | 3 years (planned) ≈10 months and 9 days (in progress) | ||||||
| Spacecraft properties | |||||||
| Spacecraft type | ASTRO | ||||||
| Bus | ASTRO-H | ||||||
| Launch mass | 2,300 kg (5,100 lb) | ||||||
| Start of mission | |||||||
| Launch date | 6 September 2023, 23:42:11 UTC[1] | ||||||
| Rocket | H-IIA 202 | ||||||
| Launch site | Tanegashima Space Center | ||||||
| Contractor | Mitsubishi Heavy Industries | ||||||
| Orbital parameters | |||||||
| Reference system | Geocentric orbit | ||||||
| Regime | Low Earth orbit | ||||||
| Perigee altitude | 550 km | ||||||
| Apogee altitude | 550 km | ||||||
| Inclination | 31.0° | ||||||
| Period | 96.0 minutes | ||||||
| Main telescope | |||||||
| Name | Soft X-ray Telescope | ||||||
| Diameter | 45 cm (18 in) [2] | ||||||
| Focal length | 5.6 m (18 ft) | ||||||
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X-ray astronomy satellite in Japan | |||||||
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The mission is a stopgap for avoiding a potential period of observation loss between the current X-ray telescopes (Chandra and XMM-Newton), and those of the future (Advanced Telescope for High Energy Astrophysics (ATHENA)). Without XRISM, there could be a time period during with no X-ray data was collected. This would arise in the early 2020s as these two reach the end of their missions, due to the loss, in 2016, of the Hitomi X-ray telescope, which was launched to be the follow-on to the Chandra and Newton telescopes.[2][5]
During its early design phase, XRISM was also known as the "ASTRO-H Successor" or "ASTRO-H2". After the loss of Hitomi, the name XARM was used, the R in the acronym refers to recovering the ability to do X-ray spectroscopy and its benefits. The name changed to XRISM in 2018 when JAXA formally initiated the project team.[6]
Overview
With the retirement of Suzaku in September 2015, and the detectors onboard Chandra X-ray Observatory and XMM-Newton operating for more than 15 years and gradually aging, the failure of Hitomi meant that X-ray astronomers would have a 13-year blank period in soft X-ray observation, until the launch of ATHENA in 2035.[Note 1][2][5][7] This would result in a major setback for the international community,[8] as studies performed by large scale observatories in other wavelengths, such as the James Webb Space Telescope and the Thirty Meter Telescope will commence in the early 2020s, while there would be no telescope to cover the most important part of X-ray astronomy.[2][5] A lack of new missions could also deprive young astronomers a chance to gain hands-on experience from participating in a project.[2][5] Along with these reasons, motivation to recover science that was expected as results from Hitomi, became the rationale to initiate the XRISM project. XRISM has been recommended by ISAS's Advisory Council for Research and Management, the High Energy AstroPhysics Association in Japan, NASA Astrophysics Subcommittee, NASA Science Committee, NASA Advisory Council.[5][9]
With its successful launch in September 2023,[1] XRISM is expected to cover the science that was lost with Hitomi, such as the structure formation of the universe, feedback from galaxies/active galaxy nuclei, and the history of material circulation from stars to galaxy clusters.[4] The space telescope will also take over Hitomi's role as a technology demonstrator for the European Advanced Telescope for High Energy Astrophysics (ATHENA) telescope.[7][10][11] Multiple space agencies, including NASA and the European Space Agency (ESA) are participating in the mission.[12] In Japan, the project is led by JAXA's Institute of Space and Astronautical Science (ISAS) division, and U.S. participation is led by NASA's Goddard Space Flight Center (GSFC). The U.S. contribution is expected to cost around US$80 million, which is about the same amount as the contribution to Hitomi.[13][14]
Changes from Hitomi
The X-ray Imaging and Spectroscopy Mission will be one of the first projects for ISAS to have a separate project manager (PM) and primary investigator (PI). This measure was taken as part of ISAS's reform in project management to prevent the recurrence of the Hitomi accident.[5] In traditional ISAS missions, the PM was also responsible for tasks that would typically be allocated to PIs in a NASA mission.
While Hitomi had an array of instruments spanning from soft X-ray to soft gamma ray, XRISM will focus around the Resolve instrument (equivalent to Hitomi's soft X-ray spectrometer),[15] as well as Xtend (SXI), which has a high affinity to Resolve.[16] The elimination of a hard X-ray telescope was justified by the 2012 launch of NASA's NuSTAR satellite, something that did not exist when Hitomi (then known as the New X-Ray Telescope, NeXT) was initially formulated.[17][Note 2] NuSTAR's spatial and energy resolution is analogous to Hitomi's hard X-ray instruments.[17] Once XRISM's operation starts, collaborative observations with NuSTAR will likely be essential.[4] Meanwhile, the scientific value of the soft and hard X-ray band width boundary has been noted; therefore the option of upgrading XRISM's instruments to be partially capable of hard X-ray observation is under consideration.[16][17][needs update]
A hard X-ray telescope proposal with abilities surpassing Hitomi was proposed in 2017.[18] The FORCE (Focusing On Relativistic universe and Cosmic Evolution) space telescope is a candidate for the next ISAS competitive medium class mission. If selected, FORCE would be launched after the mid-2020s, with an eye towards conducting simultaneous observations with ATHENA.[18][4]
History
Following the premature termination of the Hitomi mission, on 14 June 2016 JAXA announced their proposal to rebuild the satellite.[19] The XARM pre-project preparation team was formed in October 2016.[20] In the U.S. side, formulation began in the summer of 2017.[3] In June 2017, ESA announced that they would participate in XARM as a mission of opportunity.[12]
Instruments
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XRISM carries two instruments for studying the soft X-ray energy range, Resolve and Xtend. The satellite has telescopes for each of the instruments, SXT-I (Soft X-ray Telescope for Imager) and SXT-S (Soft X-ray Telescope for Spectrometer).[5] The pair of telescopes have a focal length of 5.6 m (18 ft).[2]
Resolve
Resolve is an X-ray micro calorimeter developed by NASA and the Goddard Space Flight Center.[22] The instrument is a duplicate version of its Hitomi predecessor. It used some space-qualified hardware left from the manufacture of Hitomi 's SXS.[23]
Xtend
Xtend is an X-ray CCD camera. Xtend improves on the energy resolution of Hitomi's SXI.[24]
Launch
JAXA launched XRISM on 6 September 2023 at 23:42 UTC (7 September 08:42 Japan Standard Time) using an H-IIA rocket from Tanegashima Space Center. XRISM was successfully inserted into orbit on the same day, and the accompanying launch payload, SLIM, began its multi-month journey to the Moon.[1]
A protective shutter over the Resolve instrument's detector has failed to open. This does not prevent the instrument from operating, but limits it to observing X-rays of energy 1800 eV and above, as opposed to the planned 300 eV.[25][26] A similar shutter over Xtend has opened normally.
See also
Notes
References
External links
- XRISM official website
- X-Ray Imaging and Spectroscopy Mission (XRISM) at JAXA
- X-ray Imaging and Spectroscopy Mission at NASA Goddard Space Flight Center
- Beyond the loss of Hitomi (in Japanese)