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Giotto 

Launch date: 2 July 1985 11:23 UT
Mission end: 23 July 1992
Launch vehicle: Ariane 1 rocket (flight V14)
Launch mass: 960 kg
Mission phase: Archive
Orbit: Circular orbit inside the Earth's for five years, followed by a wider orbit outside the Earth's for another two years
Achievements: Europe's first deep space mission; First close-up images of a comet nucleus including Comet Halley; First spacecraft to encounter two comets; First deep space mission to change orbit by returning to Earth for a gravity assist.

ESA's first deep space mission, Giotto was designed to help solve the mysteries surrounding Comet Halley by passing as close as possible to the comet's nucleus, which it achieved on 13 March 1986. No-one expected the spacecraft to survive its battering from comet dust during this encounter, but although Giotto was damaged during the flyby, most of its instruments remained operational. The mission was extended to allow an unprecedented encounter with a second comet, Grigg-Skjellerup.

Mission Objectives

The purpose of the Giotto mission was to study Comet Halley during its closest passage to the Sun (known as perihelion) in 1986.

The major objectives of the original mission were to:

  • Obtain the first close-up images of a comet nucleus
  • Determine the elemental and isotopic composition of ices in the cometary coma
  • Study the physical and chemical processes that occur in the comet's atmosphere
  • Determine the elemental and isotopic composition of cometary dust particles
  • Measure the comet's total gas-production rate
  • Measure the amount of dust around the comet and its size/mass distribution
  • Determine the relative amounts of dust and gas in the near-comet environment
  • Investigate the interaction between the comet and the electrically charged particles of the solar wind
     

Mission Name
 

Giotto's fresco showing Comet Halley

The spacecraft was named after the famous medieval Italian artist, Giotto di Bondone (1266-1337). Inspired by the reappearance of Comet Halley in 1301, Giotto transformed the Star of Bethlehem into a golden comet in his 1304 fresco "Adoration of the Magi", which can still be seen today in the Scrovegni chapel in Padua, Italy.

Spacecraft

By spacecraft standards, the 960-kg Giotto was quite modest in size. Its main body was a short cylinder 1.85 m in diameter by about 1.1 m in height. It contained three interior platforms:

  • Top platform (30 cm thick)
  • Main platform (40 cm)
  • experiment platform (30 cm)

Each of these consisted of a disc within the cylinder on which were mounted various subsystems and science experiments. On top of the cylinder was a tripod which surrounded a 1.5 m diameter high gain dish antenna and gave the spacecraft a total height of 2.85 m. The main rocket motor was positioned in the centre of the cylinder with the nozzle protruding from the bottom.

The most difficult problem to overcome was how to ensure that Giotto survived long enough to snap its close-up pictures of the nucleus when the spacecraft and the comet were heading towards each other at a combined speed of 245 000 kmh-1.

Instruments
 

MAG Magnetometer
HMC Halley Multicolour Camera
DID Dust Impact Detection System
RPA Rème Plasma Analyser
JPA Johnstone Plasma Analyser
PIA Particulate Impact Analyser
OPE Optical Probe Experiment
EPA Energetic Particles
NMS Neutral Mass Spectrometer
IMS Ion Mass Spectrometer
GRE Giotto Radio Experiment


Orbit

On launch in July 1985 Giotto was sent into a circular orbit inside the Earth's taking 10 months to orbit the Sun. Eight months into its first orbit, Giotto passed the nucleus of comet 1P/Halley at a distance of less than 600 km. Having completed six full orbits in five years, the orbital positions of Giotto and the Earth coincided in July 1990 enabling Giotto's orbit to be boosted by an Earth gravity-assist manoeuvre. The new, wider orbit put Giotto on a two-year intercept course for a second comet encounter with 26P/Grigg-Skjellerup.

Operations Centre

European Space Operations Centre in Darmstadt, Germany.

Last Update: 1 September 2019
29-Mar-2024 08:53 UT

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https://sci.esa.int/s/84gqDnW

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