# Infrared bands of CS2 dimer and trimer at 4.5 cm-1

**Authors:** A.J. Barclay, K. Esteki, K.H. Michaelian, A.R.W. McKellar, N., Moazzen-Ahmadi

arXiv: 1902.03443 · 2019-05-01

## TL;DR

This study reports the observation of new infrared bands of CS2 dimer and trimer at 4.5 cm-1 using a quantum cascade laser, revealing vibrational shifts and structural insights into these complexes.

## Contribution

First observation of infrared bands of CS2 dimer and trimer at 4.5 cm-1, providing vibrational shift data and structural information using laser spectroscopy.

## Key findings

- Observed small vibrational shift for dimer (-0.846 cm-1)
- Detected larger vibrational shifts for trimer (-8.953 to +16.681 cm-1)
- Identified multiple infrared-active bands and discussed vibrational assignments

## Abstract

We report observation of new infrared bands of (CS2)2 and (CS2)3 in the region of the CS2 {\nu}1+ {\nu}3 combination band (at 4.5 cm-1) using a quantum cascade laser. The complexes are formed in a pulsed supersonic slit-jet expansion of a gas mixture of carbon disulfide in helium. We have previously shown that the most stable isomer of (CS2)2 is a cross-shaped structure with D2d symmetry and that for (CS2)3 is a barrel-shaped structure with D3 symmetry. The dimer has one doubly degenerate infrared-active band in the {\nu}1+ {\nu}3 region of the CS2 monomer. This band is observed to have a rather small vibrational shift of -0.846 cm-1. We expect one parallel and one perpendicular infrared-active band for the trimer but observe two parallel and one perpendicular bands. Much larger vibrational shifts of -8.953 cm-1 for the perpendicular band and -8.845 cm-1 and +16.681 cm-1 for the parallel bands are observed. Vibrational shifts and possible vibrational assignments, in the case of the parallel bands of the trimer, are discussed using group theoretical arguments.

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Source: https://tomesphere.com/paper/1902.03443