HIGH-RESOLUTION SPECTROSCOPY ON DOUBLY DEUTERATED AMMONIA UP TO 2.6 THz
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Date
2006
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Publisher
Ohio State University
Abstract
High accuracy spectra of ND$_2$H up to frequencies of 2.6 THz have been recorded by the use of frequency multiplication techniques in combination with phase locked, high power backward wave oscillators (BWO). For the first time we used novel superlattice (SL) devices as key-element for the generation of higher order harmonics in spectroscopic applications. Odd multiplication factors up to 11 have been achieved and used to measure ground state transitions of the pure rotation and inversion-rotation spectra of ND$_2$H in the frequency range between 0.08 and 2.58 THz with accuracies of several kilohertz. Energy levels up to quantum numbers $J=18$ and $K_a=9$ have been accessed. A greatly extended experimental dataset was obtained with significantly improved accuracies. Besides a technical description of the spectrometer setup, a short presentation and analysis of the spectra will be given in the talk. The improved molecular parameters, derived in the analysis, allowed to generate predictions that can be regarded as a reliable basis for future astronomical high resolution observations throughout the microwave to terahertz regions. These predictions will be available in the Cologne Database for Molecular Spectroscopy (www.cdms.de).
Description
Author Institution: I. Physikalisches Institut, Universitat zu Koln, Zulpicher Str.77, 50937 Koln, Germany; Department of Radiophysics, N. Novgorod State University, Russia