10min:
ROTATIONAL TRANSITIONS IN THE INTERACTING nu2 , nu3 , nu4 AND nu6 BANDS OF FORMALDEHYDE IN H212C16O THE MILLIMETER RANGE FOR ASTROPHYSICAL USE.

L. MARGULÈS, R. JANECKOVÀ, S. BAILLEUX, Laboratoire PhLAM, CNRS UMR 8523, Université de Lille 1, Bat. P5, 59655 Villeneuve d'Ascq Cedex, France.; A. PERRIN, Laboratoire Inter Universitaire des Systemes Atmosphériques, CNRS UMR 7583, Université Paris 12, 61 Av du General de Gaulle, 94010 Créteil Cedex France.; C. ENDRES, T. F. GIESEN AND S. SCHLEMMER, I. Physikalisches Institut, Universität zu Köln, 50937 Köln, Germany..

This work, besides its fundamental interest, is motivated by the astrophysical importance of formaldehyde. For example formaldehyde was detected by millimeter techniques in Orion-KL and in several low-mass protostars \footnote[1]Mangum-JG ; Wootten-A ; Barsony-M , Astrophys. J. \textbf526 845-53 (1999). However, no line parameters are presently available in the spectroscopic databases for the rotational transitions within the 21, 31, 41 and 61 first excited vibrational states of formaldehyde. The goal of this study is to generate a list of line parameters for these "hot" transitions in order to help such - may be - future identifications in astrophysical spectra. For this reason, submillimeter spectra were recorded at Lille and at Köln in the 150-650 and 850-900 GHz spectral ranges, respectively. These sub millimeter data were combined in a least squares fit calculation with the infrared experimental data available in the literature for the nu3, nu4 and nu6 bands \footnote[2]D.~ C.~ Reuter, H.~Takeo, S.~ Nadler, S.J.Daunt, and J.~ W.~ C.~ Johns, J. Chem. Phys. \textbf91, 646 (1989), and for the nu2 band \footnote[3]F.~ Kwabia Tchana, A.~ Perrin and N.~ Lacome, J. Mol. Spectrosc. \textbf245, 141-144, (2007). The Hamiltonian model accounts for the various Coriolis-type resonances which perturb the energy levels of the 31, 41 and 61 vibrational states. In addition a weaker and somehow unexpected anharmonic resonance coupling the 21 and 31 energy levels was accounted for.Using this theoretical model, it proved possible to reproduce satisfactorily the experimental data and to generate a list of line positions and intensities for the nu2~ leftrightarrow~ nu2, nu3~ leftrightarrow~ nu3, nu4~ leftrightarrow~ nu4, and nu6~ leftrightarrow~ nu6 rotational transitions.