Improved Spectroscopic Constants for the ν7and ν8Bands of HNO3

The name of T. L. Tan was incorrectly given as T. L. Lan at the end of the article and in the Table of Contents. T. L. Tan's name also appears incorrectly in Volume 176, Number 2 (1996), in the Volume Table of Contents and the Author Index.

The perpendicular hot bands n and n 4 / 2n {2 8 0 n { 8 (E-E) occurring in the region of the n 7 fundamental of CH 3 NC (1050-1250 cm 01 , cf. J. PlıB va et al., J. Mol. Spectrosc. 173, 423-430, 1995) have been analyzed. Eleven subbands of the E-E component and 10 subbands of the A 1,2 -E component

The vibration-rotation spectrum of methyl isocyanide \(\left(\mathrm{CH}_{3} \mathrm{NC}\right)\) has been recorded with the aid of a high-resolution Fourier transform spectrometer in the region \(1370151560 \mathrm{~cm}^{-1}\) containing the perpendicular band of the fundamental vibration \(v_{6}\)

The high-resolution FTIR spectrum of the n 8 / n 9 band of HNO 3 around 1205 cm 01 has been measured and analyzed. The bright state was found to be strongly perturbed by its neighboring dark state n 6 / n 7 at the coincident levels. Taking account of the DK Å {2 anharmonic resonance, a simultaneous

Since formic acid (HCOOH) is an important constituent in interstellar space (1), it is worthwhile to study HCOOD to determine rovibrational constants that would provide a reliable calculation of the spectra of HCOOD. The present work provides improved spectroscopic constants for the 3 band of HCOOD