Near-Infrared Diode–Laser Spectroscopy of the CCO Radical in theÃ(010)3Δ–X(010)3Π(b) Band

Vib-rotational energy differences between the \(\dot{X}(010)^{3} \Pi(b)\) and \(\dot{X}(000)^{3} \Sigma^{-}\)states, and purerotational energy differences in the \(\bar{X}(010)^{3} \Pi(b)\) state of the CCO radical, were obtained from near-infrared absorption spectral data of the \(\tilde{A}(010)^{3

The A ˜(020)k 3 P-X ˜3S 0 (000) and A ˜3P i (001) -X ˜3S 0 (000) bands of the CCO radical have been investigated by laser spectroscopy with two types of tunable laser system. An analysis was made simultaneously for both the bands to establish line assignments and determine molecular constants for bo

The (0-0) band of the A H 3 P u -X H 3 S 0 g transition of the NCN radical at 329 nm has been re-examined at Dopplerlimited resolution by laser excitation spectroscopy. The molecule was generated in a microwave discharge through N 2 and CF 4 in helium. The previous analysis by Herzberg and Travis (C

The near-infrared absorption spectra of the FeC radical have been measured by diode laser spectroscopy in the regions from 11 810 to 13 200 cm -1 . Rotationally resolved 28 new vibronic bands of the 56 Fe 12 C major isotopic species were observed as well as two known bands. Five of them were assigne

The (010)-(010) band of the A 3 Piu -X ; 3 Sigmag - transition of the NCN radical at 328 nm has been reexamined at Doppler-limited resolution by laser excitation spectroscopy. The molecule was generated in a microwave discharge through N2 and CF4 in helium. Both the 3 Deltag -3 Piu and the 3 Sigmag