Lifetime Measurements in ^{162}Dy

Clark Casarella; Ani Aprahamian; S. Lesher; B. Crider; M. Lowe; E. Peters; F. Prados-Estevez; T. Ross; Z. Tully; S. Yates

Lifetime Measurements in $^{162}$Dy

ORAL

Abstract

Historically, the rare-earth region of nuclei has been a fountainhead for nuclear structure phenomena. One of the more debated structure effects is the nature of excited 0+ bands in nuclei, and continues to be an oustanding challenge in nuclear structure physics; several interpretations exist, and we hope that lifetime measurements can help distinguish between them. $^{162}$Dy has an abundance of 0+ states with limited lifetime data; we have measured excitation functions, mean lifetimes, and angular distributions of gamma rays for excited states in $^{162}$Dy at the University of Kentucky Accelerator Laboratory. Low lying excited states were populated up to an excitation energy of E < 3.2 MeV, where we will discuss the implications of the lifetimes under this energy threshold. This work was supported by the NSF under contract numbers PHY-1068192, PHY-1205412, and PHY-0956310.

Nov. 21, 2015, 9:48 AM – Nov. 21, 2015, 10:00 AM

Authors

Clark Casarella
- University of Notre Dame
- Department of Physics, University of Notre Dame, Notre Dame, IN 46556, USA
Ani Aprahamian
- University of Notre Dame
- Department of Physics, University of Notre Dame, Notre Dame, IN 46556, USA
S. Lesher
- University of Wisconsin - La Crosse
B. Crider
- University of Kentucky
M. Lowe
- University of Wisconsin - La Crosse
E. Peters
- University of Kentucky
F. Prados-Estevez
- University of Kentucky
T. Ross
- University of Kentucky
Z. Tully
- University of Wisconsin - La Crosse
S. Yates
- University of Kentucky