Testing the limits of the Maxwell distribution of velocities for atoms flying nearly parallel to the walls of a thin cell

Autor: Todorov, Petko, Bloch, daniel
Rok vydání: 2017
Předmět:
Zdroj: The Journal of Chemical Physics 147, 194202 (2017)
Druh dokumentu: Working Paper
DOI: 10.1063/1.4997566
Popis: For a gas at thermal equilibrium, it is usually assumed that the velocity distribution follows an isotropic 3-dimensional Maxwell-Boltzmann (M-B) law. This assumption classically implies the assumption of a "cos theta" law for the flux of atoms leaving the surface, although such a law has no grounds in surface physics. In a variety of recently developed sub-Doppler laser spectroscopy techniques for gases one-dimensionally confined in a thin cell, the specific contribution of atoms moving nearly parallel to the boundary of the vapor container becomes essential. We report here on the implementation of an experiment to probe effectively the distribution of atomic velocities parallel to the windows for a thin (60 microns) Cs vapor cell. The principle of the set-up relies on a spatially separated pump-probe experiment, where the variations of the signal amplitude with the pump-probe separation provide the information on the velocity distribution. The experiment is performed in a sapphire cell on the Cs resonance line, which benefits of a long-lived hyperfine optical pumping. Presently, we can analyze specifically the density of atoms with slow normal velocities ~ 5-20 m/s, already corresponding to unusual grazing flight theta at ~85{\deg}-88.5{\deg} from the normal to the surface and no deviation from the M-B law is found within the limits of our elementary set-up. Finally we suggest tracks to explore more parallel velocities, when surface details -roughness or structure- and the atom-surface interaction should play a key role to restrict the applicability of a M-B-type distribution.
Comment: This is the initial submission (but for 3 lines suppressed as bearing a small error) of manuscript now accepted for publication in Journal of Chemical Physics. An update with the revised published version will appear when the requested embargo will have expired. The differences between the two versions are mostly in a shortened introduction, having implied a renumbering of the references
Databáze: arXiv