Calculation Of Neutron Spectra For Hydrogen In Zeolites: Rotational Motions And Translational Motions In The Born-Oppenheimer Limit

Authors

Amy Lisa Graves, Swarthmore CollegeFollow
G. J. Martyna

Document Type

Article

Publication Date

11-1-2000

Published In

Chemical Physics

Abstract

Inelastically scattered neutrons can probe the location and dynamical behavior of molecular hydrogen absorbed within zeolites. Hydrogen may, at certain temperatures, display mixed quantum/classical dynamics associated with its rotational and center-of-mass (CM) motions. When hydrogen diffusion occurs within a zeolite containing a unique adsorptive site, the spectrum is a simple convolution of (quantum) rotational and (classical) CM contributions. We present a jump diffusion model with a faujasite-type host which illustrates this behavior. A more general case would be a host which induces a spatially-dependent distribution of rotational frequencies. In order to address this more general situation, we present a formalism in which the standard time correlation function for neutron intensity:C(q,t) = [e(i (H) over capt)(b) over cap (q)e(-i (H) over capt)(b) over cap (dagger)(q)]is approximated in the "Born-Oppenheimer" limit. A preliminary test of this formalism is performed for jump diffusion within a one-dimensional model system. (C) 2000 Elsevier Science B.V. All rights reserved.

Comments

This work is freely available courtesy of the author.

Recommended Citation

Amy Lisa Graves and G. J. Martyna. (2000). "Calculation Of Neutron Spectra For Hydrogen In Zeolites: Rotational Motions And Translational Motions In The Born-Oppenheimer Limit". Chemical Physics. Volume 261, Issue 1-2. 89-110. DOI: 10.1016/S0301-0104(00)00235-4
https://works.swarthmore.edu/fac-physics/182