Fractals in molecule-surface collisions

## Abstract The frequency of collisions of ideal gas molecules (argon) with a rough surface has been studied. The rough/fractal surface was created using random deposition technique. By applying various depositions, the roughness of the surface was controlled and, as a measure of the irregularity,

Reported are calculations of rotational energy transfer in collisions of Cl\* molecules with a rigid, smooth surface, using both sudden approximations and quasi-classical trajectories. High probabilities are found for very large Ai transitions compared to corresponding gas-phase collisions: thus mol

We show that oscillations in thechattering region, in plots offmal rotational aciion (Jr), collision time (T) and scattering angle (x) as functions of initial rotational phase (0,) ofthe diatom in planar Li-FH rlgid rotor colhsions for fixed initial impact parameter (h) values, exhibit a behavior th

Excitation of internal vibrational modes of molecules scattered from surfaces in which charge transfer between collision partners occurs is considered. A mechanism is proposed which should lead to controllable selectivity in the fragmentation distributions of scattered polyatomic molecules.

Vibrational deactivation probabiljties are caiculated for N2. Olr C12, I2 in collision with smooth surfaces, using the recent DWES model. It is found that molecular rotation dominates over translation in receiving the vibrational energy I+ leased. even for the heaviest diatomics.