Journal article
Relating PAC damping to EFG fluctuation rates through the PAC relaxation peak: Dynamic N-state symmetric models
Hyperfine interactions, Vol.199(1-3), pp.397-402
04/15/2011
Handle:
https://hdl.handle.net/2376/122134
Abstract
A perturbed angular correlation (PAC) experiment that measures dynamic damping also needs information about the fundamental quadrupole frequency to relate the damping as a function of temperature to the EFG fluctuation rate. When the experiment is unable to access slow electric field gradient (EFG) fluctuations that show the fundamental quadrupole frequency directly, one needs additional information to determine the hyperfine field parameters and thereby the connection between observed damping and EFG fluctuation rates. One way to solve this problem is to estimate the hyperfine parameters from the fluctuation rate for maximum damping (i.e. at the relaxation peak) or from the rate of maximum damping. This work relates both the maximum damping rate and the fluctuation rate at the relaxation peak to EFG magnitudes (or quadrupole frequencies) for five dynamic
N
-state symmetric models of fluctuating EFGs.
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Details
- Title
- Relating PAC damping to EFG fluctuation rates through the PAC relaxation peak
- Creators
- Tyler Park - Utah Valley UniversityJeffery A Hodges - Utah Valley UniversityCarlos Moreno - Utah Valley UniversityMichael Stufflebeam - Utah Valley UniversityWilliam E Evenson - Utah Valley UniversityP Matheson - Utah Valley UniversityM. O Zacate - Northern Kentucky UniversityGary S Collins - Washington State University
- Publication Details
- Hyperfine interactions, Vol.199(1-3), pp.397-402
- Academic Unit
- Physics and Astronomy, Department of
- Publisher
- Springer Netherlands
- Identifiers
- 99900646681801842
- Language
- English
- Resource Type
- Journal article