Observation of full contrast icosahedral Bose-Einstein statistics in laser desorbed, buffer gas cooled C60

Abstract

The quantum mechanical nature of spherical top molecules is particularly evident at low angular momentum quantum number J. Using infrared spectroscopy on the 8.4μm rovibrational band of buffer gas cooled 12C60, we observe the hitherto unseen R(J = 0 - 29) rotational progression, including the complete disappearance of certain transitions due to the molecule's perfect icosahedral symmetry and identical bosonic nuclei. The observation of extremely weak C60 absorption is facilitated by a laser desorption C60 vapor source, which transfers 1000-fold less heat to the cryogenic buffer gas cell than a traditional oven source. This technique paves the way to cooling C60 and other large gas phase molecules to much lower temperatures, providing continued advances for spectral resolution and sensitivity.