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L. MARGULÈS, S. BAILLEUX, G. WLODARCZAK, Laboratoire PhLAM, CNRS UMR 8523, Université Lille 1, 59655 Villeneuve d'Ascq Cedex, France; O. PIRALI, M.-A. MARTIN-DRUMEL, P. ROY, Ligne AILES - Synchrotron SOLEIL, L'Orme des Merisiers Saint Aubin, 91192 Gif-sur-Yvette, France; E. ROUEFF, Laboratoire de l'Univers et de ses Théories, Observatoire de Paris-Meudon, 92195, Meudon, France; AND M. GERIN, LERMA, CNRS UMR 8112, 24 rue Lhomond, 75231 Paris Cedex 05, France.
The very high resolution of the HIFI instrument (134 kHz-1MHz) on board of Herschel needs very accurate laboratory measurements to detect unambiguously the signature of stable and unstable molecular species. Concerning the pure rotation spectra of new species, and particularly of open shell molecules, the first prediction could be far away and up to few hundred MHz.
The 15N/14N ratio is not well measured in the ISM. However, the 15N/14N in the isotopomers is a potential tracer of the formation processes and the possible link with cometary molecules. Recent measurements include the detection of 15NH2D, N15NH+ and 15NH3. The NH and NH2 species are the simplest nitrogen radicals and are intermediate products in the NH3 synthesis. They have been easily detected by Herschel and it therefore is interesting to now search for 15NH and 15NH2. No spectrocopic data have been reported for these two radicals up to now.
We present here the studies with high resolution spectroscopy in the THz range. The high sensitivity and the wide range of Synchrotron (0.6-6 THz) was essential to improve the prediction of the spectra of these two species in order to measure them in Lille (0.6-1 THz) with both a higher accuracy and resolution. The combined studies now give the most accurate predictions. ISM searches on these radicals are in progress in the HERSCHEL spectra.
This work is supported by the Programme National de Physico-Chimie du Milieu Interstellaire (PCMI-CNRS)