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Van de Graaff Accelerator

AstrobiologyOU Van de Graaff Accelerator

The Van de Graaff accelerator is used to accelerate very small particles to hyper-velocities, in order to recreate the effects of continual micrometeoroid dust impacts as encountered on airless bodies such as the Moon and Enceladus, as well as impacts onto X-ray imaging sensors and other spacecraft components.

Description

The Van de Graaff accelerator charges dust particles to ~+20 kV before injecting them into the acceleration tube, where they are exposed to an electric field of up to 2 MeV, causing the particles to accelerate to velocities as high as 80 km/s. The particles then enter the drift tube, where they may be filtered, to remove particles outside the desired velocity range for a given experiment. Finally, the particles enter a target chamber, which accommodates both the target, as well as any supporting equipment and instrumentation.

The small target chamber can accommodate a 15 cm diameter surface analogue or spacecraft article. For larger targets, such as complete spacecraft instruments, the large target chamber (1 m diameter) is used.

Specification

Energy 2 MeV
Particle size 1 – 5 µm
Particle material Typically, spherical iron powder
Particle velocity 2 – 80 km/s
Target diameter 1 – 80 cm

The Van de Graff Accelerator includes:

  • Time of flight detectors
  • Particle filtering
  • Cryogenic target cooling

Contact

For all enquiries please email: manish.patel@open.ac.uk