### Session N41: Insulating and Dielectric Oxides

8:00 AM–11:00 AM, Wednesday, March 15, 2006
Baltimore Convention Center Room: 344

Chair: Seong Gon Kim, Mississippi State University

Abstract ID: BAPS.2006.MAR.N41.9

### Abstract: N41.00009 : Measurement of the Electric Field Gradient at $^{181}$\textit{Ta} in \textit{ZrSiO}$_{4 }$and \textit{HfSiO}$_{4}$ using Perturbed Angular Correlation Spectroscopy

9:36 AM–9:48 AM

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#### Authors:

Herbert Jaeger
(Miami University)

Sean McBride
Perturbed angular correlation spectroscopy (PAC) is a nuclear technique often used to probe the hyperfine interaction of a nuclear moment with extra-nuclear fields. For example the electric field gradient (EFG) at a $^{181}$Ta probe nucleus in zircon (ZrSiO$_{4})$ depends on the arrangement of the Zr, Si, and O-atoms and is very sensitive to structural rearrangements. Our PAC experiments with zircon show that a very subtle rearrangement of Si-atoms within the unit cell leads to a change in the temperature dependence of the EFG. We are currently performing a series of PAC experiments on the isostructural hafnon (HfSiO$_{4})$. Preliminary results show no evidence of a similar structural rearrangement. In addition to the EFG, we also measure the anisotropy of the $\gamma \gamma$-cascade emitted during the decay of a $^{181}$Ta nucleus. The measured anisotropy depends somewhat on the geometry of the sample and detector arrangement. However, with a given nucleus and a fixed geometry one would not expect a substantial change in the anisotropy during a series of measurements, say as a function of temperature. Yet our PAC spectra of zircon show a consistent decrease of the anisotropy in the temperature range between 650 and 800\r{ }C. Preliminary PAC spectra of hafnon show no change of the anisotropy. Reasons for this apparent loss in anisotropy will be discussed.