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Pulsed-Field-Gradient Measurements of Time-Dependent Gas Diffusion
Authors:Ross W. Mair  David G. Cory  Sharon Peled  Ching-Hua Tseng  Samuel Patz  Ronald L. Walsworth
Affiliation:aHarvard–Smithsonian Center for Astrophysics, Cambridge, Massachusetts, 02138;bDepartment of Nuclear Engineering, Massachusetts Institute of Technology, Cambridge, Massachusetts, 02139;cDepartment of Radiology, Brigham and Women's Hospital and Harvard Medical School, Boston, Massachusetts, 02115
Abstract:Pulsed-field-gradient NMR techniques are demonstrated for measurements of time-dependent gas diffusion. The standard PGSE technique and variants, applied to a free gas mixture of thermally polarized xenon and O2, are found to provide a reproducible measure of the xenon diffusion coefficient (5.71 × 10−6m2s−1for 1 atm of pure xenon), in excellent agreement with previous, non-NMR measurements. The utility of pulsed-field-gradient NMR techniques is demonstrated by the first measurement of time-dependent (i.e., restricted) gas diffusion inside a porous medium (a random pack of glass beads), with results that agree well with theory. Two modified NMR pulse sequences derived from the PGSE technique (named the Pulsed Gradient Echo, or PGE, and the Pulsed Gradient Multiple Spin Echo, or PGMSE) are also applied to measurements of time dependent diffusion of laser polarized xenon gas, with results in good agreement with previous measurements on thermally polarized gas. The PGMSE technique is found to be superior to the PGE method, and to standard PGSE techniques and variants, for efficiently measuring laser polarized noble gas diffusion over a wide range of diffusion times.
Keywords:laser polarized noble gas   PGSE technique   gas diffusion   restricted diffusion   porous media
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