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MANFRED WINNEWISSER, BRENDA P. WINNEWISSER, IVAN R. MEDVEDEV AND FRANK C. DE LUCIA, Department of Physics, The Ohio State University, Columbus Ohio, 43210-1106; STEPHEN C. ROSS, Department of Physics and Centre for Laser, Atomic, and Molecular Sciences, University of New Brunswick, P.O. Box 4400, Fredericton NB E3B 5A3, Canada; AND JACEK KOPUT, Department of Chemistry, Adam Mickiewicz University, 60-780 Poznan, Poland.
The analysis of the rotational data which were the basis of our two previous publications\footnoteB.~P.~Winnewisser, M.~Winnewisser, I.~R.~Medvedev, M.~Behnke, F.~C.~De Lucia, S.~C.~Ross and J.~Koput Phys.~Rev.~Lett. \underline\textbf95 (243002), 2005. \footnoteM.~Winnewisser, B.~P.~Winnewisser, I.~R.~Medvedev, F.~C.~De Lucia, S.~C.~Ross and L.~M.~Bates J.~Mol.~Struct. \underline\textbf798 (1-26), 2006.about NCNCS as an example of quantum monodromy has been completed, and the data extended to include the 6th excited state of the quasilinear bending mode. This talk will present the results of fitting the data with the GSRB Hamiltonian, which provides structural and potential parameters. Ab initio calculations contributed some parameters that could not be determined from the data. The predicted variation of the expectation value of
, which is the complement of the CNC angle, and of the electric dipole transition moment, upon rovibrational excitation indicate the mapping of monodromy in the potential function into these properties of the molecule.