Detection of the SiH2 radical by intracavity laser absorption spectroscopy

RotauonaUy resokd absorpuon spectra of supersomcalIy cooled NO, In a jet expansion have been observed by mtracawty laser spectroscopy Expenmental parameters charactenzmg the Jet expansion and the mtracav~ty dye laser were varied fo demonstrale Ihe general apphcabdity of quantilative measurements mvo

The near-infrared electronic transition of CuCl, occurring in the region of 745 nm, was recorded using intracavity laser absorption spectroscopy. The (0, 0), (1, 1), and (2, 2) vibronic bands were analyzed, and from this the molecular constants for the two electronic states were derived. Originally

High-sensitivity, high-resolution intracavity laser absorption spectroscopy (ICLAS) has been used to measure line intensities, nitrogen-broadening coefficients, and self-broadening coefficients in the A band (b 1 ⌺ g ϩ 4 X 3 ⌺ g Ϫ ) of oxygen. Both linear cavity and ring cavity ICLAS configurations

We report the CH-stretching overtone spectrum of jet-cooled methane in the visible range. Due to the very weak intensity of the transition, the intracavity-laser-absorption-spectroscopy technique (ICLAS) was used with a free jet of methane from a slit orifice placed inside a dye-laser cavity. In thi