The Light Gas Gun

The light gas gun (LGG) is used for investigations of hypervelocity impact phenomena. Bodies in the Solar System are subject to such impacts (e.g. craters on the Moon and the Earth) and these are understood partly via experiment in the laboratory. For example, experiments have recently been carried out in our laboratory at Canterbury which have used ices as the target material (simulating impacts on the icy surfaces of the moons of the outer planets). University of Kent light gas gun
As well as large impacts, any surface that is exposed to space will be hit by much smaller dust-like particels that are found in space. The LGG is ideal for studying such impacts. We can also study how the materials used in constructing satellites behave when they are struck at high speed by these microscopic bodies. Solar cell materials, carbon fibre composites, and aluminium have all been studied extensively. This flux of small particles is also of interest from a scientific viewpoint, for which we have built several experiments that have flown on spacecraft to measure the dust population around the Earth. These experiments (such as those on LDEF, EuReCa, and MIR) have relied on targets being hit by micro-meteoroids and such sensors can be tested and calibrated using the LGG. For example, many of the detectors flown in space count the number of particles which penetrate thin metal foils - this has been extensively studied in the laboratory using the LGG.
There is also a large amount of interest in the capture and analysis of these small particles. These bodies may be micro-meteoroids, specks of space-debris, or even dust kicked off from active comets. Normally in hypervelocity impacts such particles vaporise on impact. However, it is possible to capture them relatively intact if the target is a very low density material such as aerogel. The low density, around 0.1 gm cm-3, of aerogel (click here to see some aerogel) means that bodies are gradually slowed down when they hit, rather than being explosively destroyed upon impact. If the collision is sufficently 'gentle' then most of the original particle can be trapped, returned to Earth, and then analysed in a laboratory. In this picture a 50μm body has been captured by an aerogel target, the track of the body is clearly shown by the disrupted material in its wake.
Enquiries about using the LGG in collaborative work are warmly welcomed. Please contact Mark Burchell by email, or by telephone (01227 763248).

Gun Details

Schematic diagram

Speed regime: 2 to 7.5km/s

Projectile Type: Can fire single projectiles between 0.8mm and 2.0mm in diameter, or 25mm to 400mm diameter bodies in buck-shot style firings.

Firing Rate: Upper rate of two shots a day.

Target Specifications: Objects of up to 0.2m in diameter can be used as targets and there is also an option to have the target cooled by liquid nitrogen.