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High resolution spectroscopy of strongly interacting bands ν4, ν6, ν7, ν8, and ν10 of deuterated ethylene, C2H3D
Russian version
DOI: 10.21883/EOS.2022.08.54762.3329-22
Bekhtereva E. S.1, Belova A. S.1, Glushkov P. A.1, Gromova O. V.1, Sydow C.2
1Tomsk Polytechnic University, Tomsk, Russia
2Insitute of physical and theoretical chemistry of Technical University of Braunschweig, Braunschweig, Germany
Email: bextereva@tpu.ru, belova.sibir@mail.ru, pag14@tpu.ru, gromova@list.ru, christian.sydow@tu-braunschweig.de
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Rotational structure of strongly interacting bands ν4, ν6, ν7, ν8, and ν10 of the C2H3D molecule is spectroscopically studied. Spectra were recorded by Fourier spectrometer Brucker 125HR in the laboratory of physical and theoretical chemistry of Technical University of Braunschweig. 27950 transitions with maximum values of Jmax = 40 and Kmaxa= 20 were assigned to the studied bands. The effective Hamiltonian parameters were determined in the model including the ν3 resonating state. The 4028 upper energy levels were used as incoming data. They are reproduced with root mean square deviation of drms =1.7· 10-4 cm-1. Corresponding value for more than 24000 line positions is drms = 2.1 · 10-4 cm-1. Keywords: ethylene, high resolution spectroscopy, strongly interacting bands, Fourier-spectroscopy.
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