Progress in the rotational analysis of the ground and low-lying vibrationally excited states of malonaldehyde

Goudreau, E.S.

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https://hdl.handle.net/2142/91260 Copy

Description

Title

Progress in the rotational analysis of the ground and low-lying vibrationally excited states of malonaldehyde

Author(s)

Goudreau, E.S.

Contributor(s)

• Billinghurst, Brant E.
• Ross, Stephen Cary
• Tokaryk, Dennis W.

Issue Date

2016-06-22

Keyword(s)

Spectroscopy of Large Amplitude Motions

Abstract

Despite being an important prototype molecule for intramolecular proton tunnelling, the far-IR spectrum of the internally hydrogen-bonded species malonaldehyde (\chem{C_3O_2H_4}) is not yet well understood. In the talk I gave at the ISMS meeting in 2015 I discussed the high-resolution spectra we obtained at the Canadian Light Source synchrotron in Saskatoon, Saskatchewan. These spectra include a number of fundamental vibrational bands in the 100-2000 cm$^{-1}$ region. In our efforts to analyze these bands we have noticed that our ground state combination differences show a large drift (up to an order of magnitude larger than our experimental error) away from those calculated using constants established by Baba \textit{et al}.,\footnote{T. Baba, T. Tanaka, I. Morino, K. M. T. Yamada, K. Tanaka. \textit{Detection of the tunneling-rotation transitions of malonaldehyde in the submillimeter-wave region}. J. Chem. Phys., \textbf{110}. 4131-4133 (1999)} particularly in regions of high J (above 30) and low K$_{a}$ (below 5). An examination of the previous microwave and far-IR studies\footnote{P. Turner, S. L. Baughcum, S. L. Coy, Z. Smith. \textit{Microwave Spectroscopic Study of Malonaldehyde. 4. Vibration-Rotation Interaction in Parent Species}. J. Am. Chem. Soc., \textbf{106}. 2265-2267 (1984)}\footnote{D. W. Firth, K. Beyer, M. A. Dvorak, S. W. Reeve, A. Grushow, K. R. Leopold. \textit{Tunable far-infrared spectroscopy of malonaldehyde}. J. Chem. Phys., \textbf{94}. 1812-1819 (1991)} reveals that this region of J-K$_{a}$ space was not represented in the lines that Baba \textit{et al}. used to generate the values for their fitting parameters. By including our own measurements in the fitting, we were able to improve the characterization of the ground state so that it is now consistent with all of the existing data. This characterization now covers a much larger range of J-K$_{a}$ space and has enabled us to make significant progress in analyzing our far-IR synchrotron spectra. These include an excited vibrational state at 241 cm$^{-1}$ as well as several states split by the tunnelling effect at higher wavenumber.

Publisher

International Symposium on Molecular Spectroscopy

Type of Resource

text

Language

En

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http://hdl.handle.net/2142/91260

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Copyright 2016 by the authors

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