Abstract

CO₂ laser saturation of the ν₃ internal-vibrational mode of ReO₄⁻ molecules embedded in alkali-halide matrices has been observed near 10.8 μm. Excited-state lifetimes (T₁) of the ReO₄⁻ internal-vibrational mode as a function of temperature between 1.3 and 300 K were extracted from the saturation data.

© 1978 Optical Society of America

High-resolution spectroscopy of matrix-isolated ReO₄⁻ molecules

A. R. Chraplyvy, W. E. Moerner, and A. J. Sievers
Opt. Lett. 6(5) 254-256 (1981)

Infrared hole-burning spectroscopy of matrix-isolated ReO₄⁻ molecules

A. R. Chraplyvy, W. E. Moerner, and A. J. Sievers
Opt. Lett. 6(9) 431-433 (1981)

Absorption of pulsed CO₂-laser radiation by SF₆ at 140 K

John L. Lyman, Robert G. Anderson, Robert A. Fisher, and B. J. Feldman
Opt. Lett. 3(6) 238-240 (1978)

Spectroscopy of ¹²CF₄ features near the 9-μm ¹²C¹⁶O₂R(10), R(12), and R(18) lines by CO₂-laser and diode-laser spectroscopy

Leon J. Radziemski, Richard F. Begley, Herbert Flicker, Norris G. Nereson, and Martin J. Reisfeld
Opt. Lett. 3(6) 241-243 (1978)

Persistent infrared spectral hole burning of the fundamental stretching mode of SH⁻ in alkali halides

C. E. Mungan and A. J. Sievers
J. Opt. Soc. Am. B 9(5) 746-752 (1992)