International X-ray Observatory

International X-ray Observatory
Spacecraft properties


Mission type	Space observatory
Operator	NASA / ESA / JAXA
Website	http://ixo.gsfc.nasa.gov/
Mission duration	5 years

Launch mass	4,375 kilograms (9,645 lb)
Power	3.7 kilowatts (3,700 W)

Start of mission
Launch date	2021
Rocket	Atlas V or Ariane V

Orbital parameters
Reference system	L₂ point
Regime	800km

Main
Type	X-ray
Focal length	20m
Instruments
Hard X-ray Imager, High Timing Resolution Spectrometer, X-ray Grating Spectrometer, X-ray Microcalomiter Spectrometer, X-ray Polarimeter

The International X-ray Observatory (IXO) is a cancelled X-ray telescope to be launched in 2021 as a joint effort by NASA, the European Space Agency (ESA), and the Japan Aerospace Exploration Agency (JAXA). In May 2008, ESA and NASA established a coordination group involving all three agencies, with the intent of exploring a joint mission merging the ongoing XEUS and Constellation-X projects. This proposed the start of a joint study for IXO. ^[1] ^[2] ^[3] ^[4] ^[5] ^[6] ^[7] NASA was forced to cancel the observatory due to budget constrains in fiscal year 2012. ESA however decided to reboot the mission on its own developing Advanced Telescope for High Energy Astrophysics as a part of Cosmic Vision program.^[8]^[9]

Science with IXO

X-ray observations are crucial for understanding the structure and evolution of the stars, galaxies, and the Universe as a whole. X-ray images reveal hot spots in the Universe—regions where particles have been energized or raised to very high temperatures by strong magnetic fields, violent explosions, and intense gravitational forces. X-ray sources in the sky are also associated with the different phases of stellar evolution such as the supernova remnants, neutron stars, and black holes.^[10]

IXO will explore X-ray Universe and address the following fundamental and timely questions in astrophysics:

What happens close to a black hole?
How did supermassive black holes grow?
How do large scale structures form?
What is the connection between these processes?

To address these science questions, IXO will trace orbits close to the event horizon of black holes, measure black hole spin for several hundred active galactic nuclei (AGN), use spectroscopy to characterize outflows and the environment of AGN during their peak activity, search for supermassive black holes out to redshift z = 10, map bulk motions and turbulence in galaxy clusters, find the missing baryons in the cosmic web using background quasars, and observe the process of cosmic feedback where black holes inject energy on galactic and intergalactic scales.^[11]^[12]^[13]^[14]

This will allow astronomers to understand better the history and evolution of matter and energy, visible and dark, as well as their interplay during the formation of the largest structures.

Closer to home, IXO observations will constrain the equation of state in neutron stars, black holes spin demographics, when and how elements were created and dispersed into the intergalactic medium, and much more.^[15]^[16]^[17]

To achieve these science goals, IXO requires extremely large collecting area combined with good angular resolution in order to offer unmatched sensitivities for the study of the high-z Universe and for high-precision spectroscopy of bright X-ray sources.^[18]

The large collecting area required because, in astronomy, telescopes gather light and produce images by hunting and counting photons. The number of photons collected puts the limit to our knowledge about the size, energy, or mass of an object detected. More photons collected means better images and better spectra, and therefore offers better possibilities for understanding of cosmic processes.^[19]

IXO configuration

The heart of IXO mission is a single large X-ray mirror with up to 3 square meters of collecting area and 5 arcsec angular resolution, which is achieved with an extendable optical bench with a 20 m focal length.^[3]^[20]

Optics

IXO - cutaway view. X-ray beams reaching detectors, which will provide complementary spectroscopy, imaging, timing, and polarimetry data on cosmic X-ray sources.

A key feature of the IXO mirror design is a single mirror assembly (Flight Mirror Assembly, FMA), which is optimized to minimize mass while maximizing the collecting area, and an extendible optical bench.^[21]

Unlike visible light, X-rays cannot be focused at normal incidence, since the X-ray beams would be absorbed in the mirror. Instead, IXO's mirrors, like all prior X-ray telescopes, will use grazing incidences, scattering at a very shallow angle. As a result, X-ray telescopes consist of nested cylindrical shells, with their inner surface being the reflecting surface. However, as the goal is to collect as many photons as possible, IXO will have a bigger than 3m diameter mirror.

As the grazing angle is a function inversely proportional to photon energy, the higher-energy X-rays require smaller (less than 2 degrees) grazing angles to be focused. This implies longer focal lengths as the photon energy increases, thus making X-ray telescopes difficult to build if focusing of photons with energies higher than a few keV is desired. For that reason IXO features an extendible optical bench that offers a focal length of 20 m. A focal length of 20 meters was selected for IXO as a reasonable balance between scientific needs for advanced photon collecting capability at the higher energy ranges and engineering constraints. Since no payload fairing is large enough to fit a 20-meter long observatory, thus IXO has a deployable metering structure between the spacecraft bus and the instrument module.

Instruments

NASA conception of IXO, mirror view, artist's impression.

IXO scientific goals require gathering many pieces of information using different techniques such as spectroscopy, timing, imaging, and polarimetry. Therefore, IXO will carry a range of detectors, which will provide complementary spectroscopy, imaging, timing, and polarimetry data on cosmic X-ray sources to help disentangle the physical processes occurring in them.^[3]

Two high-resolution spectrometers, a microcalorimeter (XMS or cryogenic imaging spectrograph (CIS)) and a set of dispersive gratings (XGS) will provide high-quality spectra over the 0.1–10 keV bandpass where most astrophysically abundant ions have X-ray lines.^[22] The detailed spectroscopy from these instruments will enable high-energy astronomers to learn about the temperature, composition, and velocity of plasmas in the Universe. Moreover, the study of specific X-ray spectral features probes the conditions of matter in extreme gravity field, such as around supermassive black holes. Flux variability adds a further dimension by linking the emission to the size of the emitting region and its evolution over time; the high timing resolution spectrometer (HTRS) on IXO will allow these types of studies in a broad energy range and with high sensitivity.^[23]

To extend our view of the high-energy Universe to the hard X-rays and find the most obscured black holes, the wide field imaging & hard X-ray imaging detectors (WFI/HXI) together will image the sky up to 18 arcmin field of view (FOV) with a moderate resolution (<150 eV up to 6 keV and <1 keV (FWHM) at 40 keV).^[24]

IXO's imaging X-ray polarimeter will be a powerful tool to explore sources such as neutron stars and black holes, measuring their properties and how they impact their surroundings.^[25]

The detectors will be located on two instrument platforms—the Moveable Instrument Platform (MIP) and the Fixed Instrument Platform (FIP). The Moveable Instrument Platform is needed because an X-ray telescopes cannot be folded as it can be done with visible-spectrum telescopes. Therefore, IXO will use the MIP that holds the following detectors—a wide field imaging & hard X-ray imaging detector, a high-spectral-resolution imaging spectrometer, a high timing resolution spectrometer, and a polarimeter—and rotates them into the focus in turn.^[26]

The X-ray Grating Spectrometer will be located on the Fixed Instrument Platform. This is a wavelength-dispersive spectrometer that will provide high spectral resolution in the soft X-ray band. It can be used to determine the properties of the warm-hot-intergalactic medium, outflows from active galactic nuclei, and plasma emissions from stellar coronae.^[27]

A fraction of the beam from the mirror will be dispersed to a charge-coupled device (CCD) camera, which will operate simultaneously with the observing MIP instrument and collect instrumental background data, which can occur when an instrument is not in the focal position.

To avoid interfering the very faint astronomical signals with radiation from the telescope, the telescope itself and all its instruments must be kept cold. Therefore, the IXO Instrument Platform features a large shield that blocks the light from the Sun, Earth, and Moon, which otherwise would heat up the telescope, and interfere with the observations.

IXO optics and instrumentation will provide up to 100-fold increase in effective area for high resolution spectroscopy, deep spectral, and microsecond spectroscopic timing with high count rate capability.^[19]

The improvement of IXO relative to current X-ray missions is equivalent to a transition from the 200 inch Palomar telescope to a 22 m telescope while at the same time shifting from spectral band imaging to an integral field spectrograph.

Launch

The planned launch date for IXO was 2021, going into an L₂ orbit on either the Ariane V or Atlas V. ^[3]

Science operations

IXO Was designed to operate for a minimum of 5 years, with a goal of 10 years, so IXO science operations were anticipated to last from 2021 to 2030. ^[3]

References

External links

Wikimedia Commons has media related to International X-ray Observatory.

Space observatories

Operating	AGILE AMS-02 Astrosat CALET Chandra (AXAF) DAMPE Fermi Gaia Hinode (Solar-B) HiRISE Hisaki (SPRINT-A) Hubble INTEGRAL IBEX IRIS Kepler LISA Pathfinder MAXI Mikhailo Lomonosov MOST NEOSSat NuSTAR Odin PAMELA R/HESSI SDO SOHO SOLAR Spektr-R Spitzer Swift TUGSAT-1 & UniBRITE-1 WISE XMM-Newton

Planned	HXMT (2017) ISS-CREAM (2017) NICER (2017) CHEOPS (2017) Nano-JASMINE (2017) Spektr-RG (2017) TESS (2017) James Webb (JWST) (2018) Solar Orbiter (SolO) (2018) K-EUSO (2019) iWF-MAXI (2019) Public Telescope (PST) (2019) Astro-1 Telescope (2020) Euclid (2020) Spektr-UV (2021) SVOM (2021) Space Solar Telescope Xuntian (2022) Solar-C (2023) PLATO (2024) Spektr-M (2025) ATHENA (2028) eLISA (2034)

Proposed	ATLAST Astro-H Succesor DIOS EXCEDE Fresnel Imager FINESSE FOCAL HDST Hypertelescope LiteBIRD LUVOIR NEOCam New Worlds Mission NRO donation to NASA Small-JASMINE Sentinel Solar-D SPICA THEIA WFIRST EUSO

Retired	Akari (Astro-F) (2006–11) ALEXIS (1993–2005) ATM (1973–74) ASCA (Astro-D) (1993–2000) Astro-1 (BBXRT HUT) (1990) Astro-2 (HUT) (1995) Astron (1983–89) ANS (1974–76) BeppoSAX (1996–2003) CHIPSat (2003–08) Compton (CGRO) (1991–2000) COROT (2006–13) Cos-B (1975–82) COBE (1989–93) EPOCh (2008) EPOXI (2010) EXOSAT (1983–86) EUVE (1992–2001) FUSE (1999–2007) Kvant-1 (1987–2001) GALEX (2003–13) Gamma (1990–92) Ginga (Astro-C) (1987–91) Granat (1989–98) Hakucho (CORSA-ｂ) (1979–85) HALCA (MUSES-B) (1997–2005) HEAO-1 (1977–79) Herschel (2009–13) Hinotori (Astro-A) (1981–91) HEAO-2 (Einstein Obs.) (1978–82) HEAO-3 (1979–81) HETE-2 (2000–07?) Hipparcos (1989–93) IUE (1978–96) IRAS (1983) IRTS (1995–96) ISO (1996–98) IXAE (1996–2004) Kristall (1990–2001) LEGRI (1997–2002) MSX (1996–97) OAO-2 (1968–73) OAO-3 (Copernicus) (1972–81) Orion 1/2 (1971/1973) Planck (2009–13) RELIKT-1 (1983–84) ROSAT (1990–99) RXTE (1995–2012) SAMPEX (1992–2004) SAS-B (1972–73) SAS-C (1975–79) Suzaku (Astro-EII) (2005–15) Taiyo (SRATS) (1975-80) Tenma (Astro-B) (1983–1985) Uhuru (1970–73) WMAP (2001–10) WISE (first mission: 2009–11) Yokoh (Solar-A) (1991–2001)

Hibernating (Mission completed)	SWAS (1998–2005) TRACE (1998–2010)

Lost	OAO-1/OAO-B (1966/1970) CORSA (1976) ABRIXAS (1999) HETE (1996) WIRE (1999) Astro-E (2000) Hitomi (Astro-H) (2016)

Cancelled	Astro-G Constellation-X Darwin Destiny EChO Eddington FAME GEMS IXO JDEM LOFT SIM & SIMlite SNAP TAUVEX TPF XEUS

See also	Great Observatories program List of space telescopes List of proposed space observatories

Category

NASA

Policy and history

History	NACA (1915) National Aeronautics and Space Act (1958) Space Task Group (1958) Paine (1986) Rogers (1986) Ride (1987) Space Exploration Initiative (1989) Augustine (1990) U.S. National Space Policy (1996) CFUSAI (2002) CAIB (2003) Vision for Space Exploration (2004) Aldridge (2004) Augustine (2009)

General	Space Race Administrator and Deputy Administrator Chief Scientist Astronaut Corps Budget Spin-off technologies NASA TV NASA Social Launch Services Program Kennedy Space Center Vehicle Assembly Building Launch Complex 39 Launch Control Center Johnson Space Center Mission Control Lunar Sample Laboratory

Robotic programs

Past	Hitchhiker Mariner Mariner Mark II MESUR Mars Surveyor '98 New Millennium Lunar Orbiter Pioneer Planetary Observer Ranger Surveyor Viking Project Prometheus Mars Scout

Current	Living With a Star Lunar Precursor Robotic Program Earth Observing System Great Observatories program Explorer Small explorer Voyager Discovery New Frontiers Mars Exploration Rover

Human spaceflight
programs

Past	X-15 (suborbital) Mercury Gemini Apollo Apollo–Soyuz Test Project (with USSR) Skylab Shuttle–Mir (with Russia) Space Shuttle program Constellation program

Current	International Space Station program Commercial Orbital Transportation Services (COTS) Commercial Crew Development (CCDev) Orion

Individual featured
missions
(human and robotic)

Past	COBE Apollo 11 Mercury 3 Mercury-Atlas 6 Magellan Pioneer 10/11 Galileo GALEX GRAIL WMAP Space Shuttle LADEE MESSENGER Aquarius

Currently operating	MRO Mars Odyssey Dawn New Horizons Kepler International Space Station Hubble Space Telescope Spitzer RHESSI SWIFT THEMIS Mars Exploration Rover Curiosity rover timeline Opportunity rover observed Cassini GOES 14 Lunar Reconnaissance Orbiter GOES 15 Van Allen Probes SDO Juno Mars Science Laboratory timeline NuSTAR Voyager 1/2 WISE MAVEN MMS

Future	JPSS James Webb Space Telescope WFIRST InSight OSIRIS-REx Asteroid Redirect Mission Mars 2020 NISAR Transiting Exoplanet Survey Satellite Europa Multiple-Flyby Mission

Communications
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NASA lists

Category
Commons
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European Space Agency

Spaceports	Guiana Space Centre Esrange

Launch vehicles	Ariane 5 Arianespace Soyuz Vega

Facilities	ESOC ESTEC ESRIN EAC ESAC ECSAT CDF ST-ECF

Communications	ESTRACK European Data Relay System

Programmes	Aurora Copernicus Sentinel Cosmic Vision EGNOS ELIPS ExoMars FLPP Galileo LPP Space Situational Awareness Programme

Predecessors	ELDO ESRO

Related topics	Arianespace ESA Television EUMETSAT European Space Camp GEWEX Planetary Science Archive

Projects and missions

Science

Solar physics	ISEE-2 (1977–1987) Ulysses (1990–2009) SOHO (1995–present) Cluster II (2000–present) Solar Orbiter (2017)

Planetary science	Giotto (1985–92) Huygens (1997–2005) SMART-1 (2003–06) Mars Express (2003–present) Rosetta/Philae (2004–2016) Venus Express (2005–2014) ExoMars Trace Gas Orbiter (2016–present) BepiColombo (2018) ExoMars rover (2020) Jupiter Icy Moons Explorer (2022)

Astronomy and cosmology	Cos-B (1975–82) IUE (1978–96) EXOSAT (1983–86) Hipparcos (1989–93) Hubble (1990–present) Eureca (1992–93) ISO (1995–98) XMM-Newton (1999–present) INTEGRAL (2002–present) COROT (2006–13) Planck (2009–13) Herschel (2009–13) Gaia (2013–present) CHEOPS (2017) James Webb (2018) Euclid (2020) PLATO (2024) ATHENA (2028) eLISA (2034)

Earth observation	Meteosat First Generation (1977–97) ERS-1 (1991–2000) ERS-2 (1995–2011) Meteosat Second Generation (2002–present) Envisat (2002–12) Double Star (2003–07) MetOp (2006–present) GOCE (2009–13) SMOS (2009–present) CryoSat-2 (2010–present) Swarm (2013–present) Sentinel-1 / 1A / 1B (2014–present) Sentinel-2 / 2A (2015–present) Sentinel-3 / 3A (2016–present) Sentinel-5 Precursor (2016) Meteosat Third Generation (Sentinel-4) (2017) ADM-Aeolus (2017) EarthCARE (2018) MetOp-SG-A (2021) SMILE (2021) MetOp-SG-B (2022) FLEX (2022)

ISS spaceflight

ISS contribution (1998–present)
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Telecommunications

GEOS 2 (1978)
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Technology
demonstrators

ARD (1998)
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IXV (2015)
LISA Pathfinder (2015–present)
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Proba-3 (2018)
Lunar Lander (2018)
AIDA (2020)

Cancelled and proposed

Failed

Future missions in italics

Category
Commons
Wikinews
WikiProject

Japanese space program

JAXA
- former ISAS
- NAL
- NASDA
USEF
NICT

Astronomical
observation

Completed	Hakucho Hinotori Tenma Ginga Yohkoh ASCA HALCA Akari Suzaku

In operation	Hinode Hisaki

Failed	Hitomi¹

Planned	Nano-JASMINE Astro-H Succesor LiteBIRD SPICA² ATHENA²

Cancelled	Astro-G

Communications,
broadcasting and
positioning

Completed	Sakura (1 2a 2b 3a 3b) Yuri 1 2a 2b 3a 3b BS 2X 3H 3N Kakehashi N-STAR a b Kirari MBSat

In operation	Kodama Kizuna N-STAR c d MTSAT QZSS Michibiki

Planned	QZSS QZS-2 QZS-3 QZS-4 JDRS

Earth observation

Completed	Taiyo Kyokko Jikiken Denpa Ohozora Ume 1 b Fuyo-1 Momo 1 1b Midori I II Daichi Akebono

In operation	GEOTAIL¹ Himawari Aqua¹⁷ TRMM¹ Ibuki Shizuku GPM¹ Daichi-2

Planned	ERG GCOM-C GOSAT-2 EarthCARE² Advanced Optical Satellite Advanced Radar Satellite ASNARO

Engineering tests

Completed	Ohsumi Shinsei Kiku 1 2 3 4 5 6 7 Tansei 1 2 3 4 Ayame 1 2 Jindai Orizuru Myojo Ryusei EXPRESS SFU LDREX 1 2 LRE Tsubasa DASH USERS Micro LabSat-1 SERVIS-1 SERVIS-2 SDS-1

In operation	Ajisai Reimei Kiku-8 IKAROS SDS-4

Planned	SLATS Next Engineering Satellite SERVIS-3

Cancelled	SmartSat-1 PETSAT

Human spaceflight

Completed	H-II Transfer Vehicle 1 2 3 4 5

In operation	International Space Station (ISS) & Kibo¹²³⁴⁵⁶

Planned	H-II Transfer Vehicle 6 7 8 9 X1

Cancelled	HOPE-X Fuji manned spacecraft

Lunar and
planetary exploration

Completed	Sakigake Suisei Hiten Hayabusa Kaguya (SELENE)

In operation	Akatsuki Hayabusa 2 PROCYON

Failed	Nozomi Shin'en

Planned	BepiColombo (MMO)² EQUULEUS OMOTENASHI SLIM JUICE² MMX Trojan asteroid exploration SELENE-R MELOS

Cancelled	Lunar-A Jupiter Magnetospheric Orbiter

Private
miniaturized satellites

Completed	Fuji 1 2 Kanta-kun (WEOS) HIT-SAT CUTE 1.7+APD Maido-1 Kūkai Kagayaki Negai☆″ Waseda-SAT2 Hayato WE WISH Niwaka RAIKO CosMoz

In operation	Fuji-3 CUTE 1 1.7+APDII XI IV V SEEDS Raijin Kiseki Hitomi Horyu 2 PROITERES RISING-2 SOCRATES

Planned	WNI satellite SPROUT TSUBAME QSAT-EOS SOMESAT

Reconnaissance

Completed	IGS-Optical 1 2 Experimentally 3 IGS-Radar 1 2

In operation	IGS-Optical 3 4 5 Experimentally 5 IGS-Rader 3 4 Spare

Planned	IGS-Optical 6 7 8 IGS-Rader 5 6 7 8

Italics indicates projects in development.
Superscripts indicate joint development with¹NASA, ²ESA, ³ASI, ⁴CSA, ⁵RKA, ⁶AEB and ⁷INPE.

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