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AGILE (satellite)

From Wikipedia, the free encyclopedia

AGILE satellite model 1.jpg
A model of the satellite
Mission typeGamma-ray astronomy
COSPAR ID2007-013A
SATCAT no.31135
Mission durationuntil 2010 (original);[1] operational as of 2018 [2]
Spacecraft properties
ManufacturerOHB (in the Milano site), ex Compagnia Generale per lo Spazio
Launch mass352 kilograms (776 lb)
Start of mission
Launch date23 April 2007, 10:00:00 (2007-04-23UTC10Z) UTC
RocketPSLV C8
Launch siteSatish Dhawan SLP
Orbital parameters
Reference systemGeocentric
RegimeLow Earth
Semi-major axis6,892.13 kilometres (4,282.57 mi)
Perigee altitude509 kilometres (316 mi)
Apogee altitude533 kilometres (331 mi)
Inclination2.47 degrees
Period94.90 minutes
Epoch4 December 2013, 04:13:37 UTC[3]

AGILE (Astro‐Rivelatore Gamma a Immagini Leggero) is an X-ray and Gamma ray astronomical satellite of the Italian Space Agency (ASI).


AGILE's mission is to observe gamma-ray sources in the universe.

AGILE (Astro rivelatore Gamma a Immagini Leggero) is an Italian high-energy astrophysics mission dedicated to the observation of the gamma-ray Universe. Its very innovative instrumentation is unprecedentedly light (100 kg) and the most compact ever operational for high-energy astrophysics (approximately a cube of about 60 cm size) with excellent detection and imaging capability. Satellite data are collected by the ASI ground station in Malindi (Kenya), then quickly transferred to the Satellite Operations Centre in Fucino, transferred, preprocessed, and stored and analyzed at the ASI Science Data Center (ASDC) in Frascati. In parallel the pre-processed data are transferred at INAF/OAS Bologna for a fast science alert generation, thus assuring a very rapid response to gamma-ray detections, obtained by special quick look analysis programs and coordinated ground-based and space observations.

Key scientific objectives of the AGILE Mission include the study of:[1]


AGILE's instrumentation includes a Gamma Ray Imaging Detector (GRID) sensitive in the 30 MeV – 50 GeV energy range, a SuperAGILE (SA) hard X-ray monitor sensitive in the 18–60 keV energy range, a Mini-Calorimeter (MCAL) non-imaging gamma-ray scintillation detector sensitive in the 350 keV – 100 MeV energy range,[4] and an Anti-coincidence System (AC), based on a plastic scintillator, to assist with suppressing unwanted background events.

The SuperAGILE SA is an instrument based on a set of four silicon strip detectors, each equipped with one-dimensional coded mask. The SA is designed to detect X-Ray signals from known sources and burst-like signals. It provides long-term monitoring of flux and spectral features. MCAL can also effectively detect high-energy radiation bursts in its energy band.

Launch and operations

AGILE was successfully launched on 23 April 2007, from the Indian base of Sriharikota and was inserted in an equatorial orbit with low particle background. On 23 April 2007, ASI made contact with AGILE; its signals were acquired by the ground station at the Broglio Space Centre near Malindi, Kenya and it was placed in a Sun-pointing mode.[5]


During its operations AGILE surveyed the gamma-ray sky and detected many galactic and extragalactic sources: AGILE discovered gamma-ray emission from the microquasar Cygnus X-3, detected many bright blazars, discovered several new gamma-ray pulsars, surveyed the Galactic plane with simultaneous hard X-ray/gamma-ray capability, discovered emission up to 100 MeV from Terrestrial Gamma-Ray Flashes.

Some transient events detected by AGILE are associated with positions not consistent with a known source (Gamma Ray Burst) and have cosmological origins. Others are due to solar flares, while some are due to Earth atmosphere events (Terrestrial Gamma Flash).

The main results of the AGILE satellite are:

  • Discovery of variable gamma-ray emission from the Crab Nebula: AGILE discovery that the archetypical source of gamma-ray astrophysics is not constant. Very rapid and intense gamma-ray flares from the inner Nebula driven by plasma instabilities. Theoretical particle acceleration models challenged and to be drastically revised. Consequences and broad applications in plasma physics experiments and theoretical studies of particle acceleration. For the discovery of gamma-ray flares from the Crab Nebula the 2012 Bruno Rossi Prize of the American Astronomical Society has been awarded to Marco Tavani and his team.
  • Resolving the problem of the origin of cosmic-rays: First direct evidence of proton/ion gamma-ray emission by pion emission below 200 MeV in SNR W44. Combined gamma-ray and TeV emission from SNR IC 433 and W28.
  • Discovery of gamma-ray emission from the black hole system Cygnus X-3: Discovery of extreme particle acceleration preceding relativistic jet plasmoid ejections from the black hole candidate Cyg X-3. Repeatedly detected by AGILE since 2008. First comprehensive survey of all Galactic microquasars by Super-AGILE and AGILE-GRID (Tavani et al., Nature, 462, 620, 2009).
  • Discovery of TGF emission up to very high energies (100 MeV): Discovery of gamma-ray emission up to 100 MeV from terrestrial flashes associated with intense thunderstorms. Evidence for accelerating potentials larger than 100 MV. Theoretical models of acceleration in lightning discharges to be drastically revised. Significant impacts for atmospheric physics and climate studies.
  • The supermassive black hole 3C 454.3: Very active and variable blazar since 2007. AGILE first to announce gamma-ray super-flares in 2009 and 2010. The brightest, ever, gamma-ray source in November 2010, almost 7 times more luminous that the Vela pulsar.
  • Soft gamma-ray pulsars (PSR 1509-58 and others): First post-EGRET gamma-ray pulsar discovered with the AGILE first light in 2007. Unveiling a class of “soft” gamma-ray pulsar barely detectable below 200 MeV, such as PSR B1509-58. Theoretical constraints on “photon splitting” in PSR magnetospheres.
  • Unveiling relativistic particle winds: Nebular gamma-ray emission near the Vela pulsar imaged by AGILE with high resolution. Clear evidence for different accelerated populations of particles.
  • The brightest massive black hole of the BL Lac class: Detection of the strongest gamma-ray flare from a blazar of the BL Lac class, S5 0716+714 (believed to be driven by black-hole rotation). First theoretical determination of a system near the maximal limit of energy to be extracted from a rotating black hole.
  • Gamma-ray flaring of the massive black hole Markarian 421: First multifrequency campaign in 2008 including X-ray (Super-AGILE), gamma-ray and TeV observations of the flaring blazar Mrk 421.

A key aspect of the AGILE data flow is the fastest gamma-ray alert monitoring system of the world. The overall gamma-ray alert monitoring system of AGILE is compound by two independent pipelines that process the data with different data quality results. The INAF/OAS Bologna pipeline processes the data in the fastest possible way, but it generates alert within 0.5–1 hour from the time of the last GRID event acquired in orbit. The ASDC pipeline is more accurate because all events are considered during the analysis but the alerts are generated 3–3.5 hours after.


  1. ^ a b ASI AGILE
  2. ^ [1]
  3. ^ Peat, Chris (4 December 2013). "AGILE - Orbit". Heavens Above. Retrieved 6 December 2013.
  4. ^ Scientific Goals and Instrument Performance of the Gamma-Ray Imaging Detector AGILE
  5. ^ "It will be Israeli satellite in August". The Hindu. Chennai, India. 25 April 2007. Archived from the original on 27 April 2007.

External links

This page was last edited on 14 January 2021, at 08:28
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