Nuclear Resonance Fluorescence from ^{238}U

S. Hammond; C.T. Angell; H.J. Karwowski; C.R. Howell; E. Kwan; G. Rusev; A. Tonchev; W. Tornow; J.H. Kelley

Nuclear Resonance Fluorescence from $^{238}$U

ORAL

Abstract

Nuclear resonance fluorescence provides unambiguous isotope identification by observing de-excitations of nuclear levels of $\gamma$-ray transitions characteristic of the isotope of interest as high-energy $\gamma$ rays penetrate protective shielding, acting as an identifier of hidden nuclear materials. Using the mono-energetic $\gamma$-ray source at the HI$\gamma$S facility to investigate the nucleus $^{238}$U through the ($\gamma$, $\gamma$') reaction, we measured the widths of low-spin states observed at incident $\gamma$-ray beam energies in the range of 2.94 to 4.40 MeV.

^*This work was supported in part by NSF/DHS grant CBET-0736123.

Oct. 24, 2008, 9:06 AM – Oct. 24, 2008, 9:18 AM

Authors

S. Hammond
- University of North Carolina-Chapel Hill \& TUNL
C.T. Angell
- University of North Carolina-Chapel Hill \& TUNL
H.J. Karwowski
- University of North Carolina-Chapel Hill \& TUNL
C.R. Howell
- Duke University \& TUNL
E. Kwan
- Duke Univ. \& TUNL
- Duke University \& TUNL
G. Rusev
- Duke and TUNL
- Duke University \& TUNL
A. Tonchev
- Duke University \& TUNL
W. Tornow
- Department of Physics/TUNL Duke University
- Duke University \& TUNL
J.H. Kelley
- NCSU \& TUNL