$Rotational analysis of the $3_0^1 $301 band of the $\tilde A{}^6\Sigma ^ + \leftarrow \tilde X{}^6\Sigma ^ + $Ã6Σ+←X̃6Σ+ system of CrCCH$

Rotational analysis of the $3_0^1 $301 band of the $\tilde A{}^6\Sigma ^ + \leftarrow \tilde X{}^6\Sigma ^ + $Ã6Σ+←X̃6Σ+ system of CrCCH

The spectrum of chromium acetylide, CrCCH, has been investigated in the near-infrared region (10 500–14 500 cm−1) and an intense band system is observed. The $3_0^1 $301 band of this system has been investigated at high resolution (0.025 cm−1) and this system is identified as the $\tilde A{}^{\rm 6}...

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Veröffentlicht in:	The Journal of chemical physics 2014-08, Vol.141 (6)
Hauptverfasser:	Brugh, Dale J, Morse, Michael D
Format:	Artikel
Sprache:	eng
Schlagworte:	Chromium compounds Ground state Infrared spectroscopy
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container_title	The Journal of chemical physics
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creator	Brugh, Dale J Morse, Michael D
description	The spectrum of chromium acetylide, CrCCH, has been investigated in the near-infrared region (10 500–14 500 cm−1) and an intense band system is observed. The $3_0^1 $301 band of this system has been investigated at high resolution (0.025 cm−1) and this system is identified as the $\tilde A{}^{\rm 6}{\rm \Sigma }^ + \leftarrow \tilde X{}^{\rm 6}{\rm \Sigma }^ + $Ã6Σ+←X̃6Σ+ system, analogous to the near IR spectra of the CrH, CrF, and CrCl molecules. Among the many unidentified lines, we have assigned 341 lines belonging to 43 of the 54 allowed branches. Using combination differences, the rotational constants of the ground state have been determined. Computational results on the ground state are also reported, along with a comparison to other monoligated monovalent chromium compounds.
doi_str_mv	10.1063/1.4890972
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The $3_0^1 $301 band of this system has been investigated at high resolution (0.025 cm−1) and this system is identified as the $\tilde A{}^{\rm 6}{\rm \Sigma }^ + \leftarrow \tilde X{}^{\rm 6}{\rm \Sigma }^ + $Ã6Σ+←X̃6Σ+ system, analogous to the near IR spectra of the CrH, CrF, and CrCl molecules. Among the many unidentified lines, we have assigned 341 lines belonging to 43 of the 54 allowed branches. Using combination differences, the rotational constants of the ground state have been determined. 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subjects	Chromium compounds Ground state Infrared spectroscopy
title	Rotational analysis of the $3_0^1 $301 band of the $\tilde A{}^6\Sigma ^ + \leftarrow \tilde X{}^6\Sigma ^ + $Ã6Σ+←X̃6Σ+ system of CrCCH
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