Measurement of the Polarizability of Ba^{2+}

Erica L. Snow; Shannon L. Woods; Mark E. Hanni; Stephen R. Lundeen; Charles W. Fehrenbach

Measurement of the Polarizability of Ba$^{2+}$

ORAL

Abstract

The dipole polarizability of Ba$^{2+}$ was determined by spectroscopy of high-L Rydberg levels of Ba$^{+}$, using the Resonant Excitation Stark Ionization Spectroscopy (RESIS) method. Beams of Ba$^{2+}$, obtained by sputtering solid Ba inside a 14 GHz permanent magnet ECR source at Kansas State University, captured a single electron from a dense Rb 12F Rydberg target, forming highly excited Rydberg levels of Ba$^{+}$. Rydberg levels of Ba$^{+}$ with n=19 or 20 and L=5,6,7,8, and 9 were excited to a much higher level using a Doppler-tuned CO$_{2}$ laser and then detected by Stark ionization. The resolved fine structure of these levels, analyzed with the long-range polarization model, determined the polarizability of the ground state of Ba$^{2+}$.

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

May 26, 2010, 3:24 PM – May 26, 2010, 3:36 PM

Authors

Erica L. Snow
- SUNY Fredonia
Shannon L. Woods
- Colorado State University
Mark E. Hanni
- Colorado State University
Stephen R. Lundeen
- Colorado State University
Charles W. Fehrenbach
- Kansas State University
- Kansas State Univ