HOU, M.; LIU, R.; ZHAI, G.; SUN, Z.; LU, K.; GARRABOS, Yves; EVESQUE, Pierre

doi:10.1007/s12217-008-9040-5

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HOU, M.
Beijing National Laboratory for Condensed Matter Physics

LIU, R.
Beijing National Laboratory for Condensed Matter Physics

ZHAI, G.
Center for Space Science and Applied Research [Beijing] [CSSAR]

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Microgravity Science and Technology. 2008, vol. 20, n° 2, p. 73-80

Springer

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Dynamics of quasi-2D dissipative granular gas is studied in micro-gravity condition (of the order of 10 − 4 g) in the limit of Knudsen regime. The gas, made of 4 spheres, is confined in a square cell enforced to follow linear sinusoidal vibration in ten different vibration modes. The trajectory of one of the particles is followed for 2 hours, and is reconstructed from video data by particle tracking. From statistical analysis, we find that (i) loss due to wall friction is small, (ii) trajectory looks ergodic in space, and (iii) distribution ρ(ν) of speed follows an exponential distribution...< Réduire

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Granular gas

Velocity distribution

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Velocity distribution of vibration-driven granular gas in Knudsen regime in microgravity

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