Properties of Ni^{+} from spectroscopy of high-L Rydberg levels of Ni

Julie A. Keele; Shannon L. Woods; Mark E. Hanni; Stephen R. Lundeen; William G. Sturrus

Properties of Ni$^{+}$ from spectroscopy of high-L Rydberg levels of Ni

ORAL

Abstract

A single high-L Rydberg electron bound to the $^{2}$D$_{5/2}$ ground state of Ni$^{+}$ leads to a Rydberg fine structure consisting of six levels for each value of L, corresponding to the six possible values of the quantum number K=L+J. The resulting fine structure pattern in n=9, L $>$ 4 levels of Ni was resolved in measurements of the Ni 9-19 and 9-20 transitions, using the Resonant Excitation Stark Ionization Spectroscopy technique [1]. The pattern was analyzed to determine the scalar and tensor polarizabilities and the permanent electric quadrupole moment of Ni$^{+}(^{2}$D$_{5/2})$. [1] E.L Snow, et. al. Phys. Rev. A 71, 022510 (2005)

^*Supported by the Chemical Sciences, Geosciences, and Biosciences Division of the Office of Basic Energy Science, U.S. Department of Energy

May 21, 2009, 10:42 AM – May 21, 2009, 10:54 AM

Authors

Julie A. Keele
- Colorado State University
Shannon L. Woods
- Colorado State University
Mark E. Hanni
- Colorado State University
Stephen R. Lundeen
- Colorado State University
William G. Sturrus
- Youngstown State University