Residual ionization after impact of large dust particles

Details Residual ionization after impact of large dust particles Residual ionization after impact of large dust particles

May 1981

adsabs.harvard.edu/cgi-bin/nph-data_query?bibcode=1981esasp.155...23h&link_type=abstract

In ESA The Comet Halley Probe. Plasma Environ. p 23-37 (SEE N81-34113 24-88)

Computer Science

3

Cosmic Dust, Gas Ionization, Hypervelocity Impact, Aluminum, Flyby Missions, Halley'S Comet, Iron, Plasma Clouds, Pressure Distribution, Relaxation Time, Saha Equations, Shock Waves, Tungsten

Scientific paper

The degree of ionization in a rapidly expanding gas cloudlet, produced by high velocity impact of large dust particles on a solid surface is investigated. The dynamics of shock wave compression of the impinging particle, the thermodynamics of the high pressure shock state as well as the characteristics of equilibrium and nonequilibrium expansion of the partially ionized gas are considered. Calculations are extended to large particles (up to 1000 microns) at an impact velocity of w = 57 km/sec, the flyby velocity of the planned Halley probe.

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