COLLISIONAL ORIENTATION TRANSFER FACILIATED POLAROZATION SPECTROSCOPY
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Date
2011
Journal Title
Journal ISSN
Volume Title
Publisher
Ohio State University
Abstract
Collisional orientation transfer facilitated V-type double-resonance polarization spectroscopy technique was applied to study the A-b complex of Rb$_{2}$ and Cs$_{2}$. Since spectral congestion makes it difficult to find isolated pump transitions for heavy molecules such as Rb$_{2}$ and Cs$_{2}$, this technique significantly enlarges the range of rotational levels that can be observed per vibrational level. Collisional satellite lines with $\Delta$J up to 58 were observed in the Rb$_{2}$ polarization experiment. In the Cs$_{2}$ experiment, due to weaker Franck-Condon factors, collisional satellite lines with $\Delta$J$_{max} $ equals to 12 were observed. Collisional orientation transfer in polarization spectroscopy was first observed with buffer gas pressure of several hundred Torr. The high pressure led to loss of spectral resolution from collisional broadening. Only 1 to 3 Torr of argon buffer gas pressure was used in our experiments to obtain spectra with much higher resolution. Among the six types of possible probe signals, we assigned and analyzed the signals from the V type excitation scheme. The data was used in the global deperturbation analysis of the A-b complex of both Rb$_{2}$ and Cs$_{2}$.
Description
Funded by NSF PHY 0555608 and PHY 0855502.
Author Institution: Temple University; Lehigh University
Author Institution: Temple University; Lehigh University