HIGH-RESOLUTION INFRARED SPECTROSCOPY OF Ge$_2$C$_3$

Abstract

Author Institution: I. Physikalisches Institut, Universitat zu Koln, 50937 Koln, Germany; Universitat Kassel, Fachbereich 10 - Physik, 34132 Kassel, Germany; Institut fur Physikalische Chemie, Universitat Mainz, 55099 Mainz, GermanyCarbon-rich systems are of great importance in diverse areas of research like material science as well as astro- and structural chemistry. Despite this relevance, our knowledge of smaller cluster units is still fragmentary, particularly with respect to investigations at high-spectral resolution in the gas phase. Unequivocal assignment of spectral features to their molecular carriers is critically dependent on predictions from high-level quantum-chemical calculations. In turn, high-resolution studies provide useful information to assess the predictive power of quantum-chemical methods. This is particularly interesting for cluster systems harboring heavy elements for which so far relatively little is known from experiment. With this contribution, we would like to present a recent gas-phase study of a polyatomic germanium-carbon cluster, linear Ge$_2$C$_3$ (Ge=C=C=C=Ge), which was previously studied in an Ar matrix \textbf{114}, 3570 (2001).}. The cluster was produced through laser ablation of germanium-graphite sample rods and observed in a free jet at wavelengths around 5$\mu$m. Additionally, quantum-chemical calculations of Ge$_2$C$_3$ were performed at the CCSD(T) level of theory. The production and observation of Ge$_2$C$_3$ suggests that many more binary clusters should be amenable to high-resolution spectroscopic techniques not only in the infrared but also in the microwave region