Quantum state resolution of the C60 fullerene

Abstract

The remarkable physical properties of buckminsterfullerene, C60, have attracted intense research activity since its original discovery. Total quantum state resolved measurements of isolated C60 molecules have been of particularly long-standing interest. However, such observations have to date been unsuccessful due to the difficulty in preparing cold, gas-phase C60 in sufficiently high densities. Here we report high resolution infrared absorption spectroscopy of C60 in the 8.5 μm spectral region. A combination of cryogenic buffer gas cooling and cavity-enhanced direct frequency comb spectroscopy has enabled the observation of quantum state resolved rovibrational transitions. Characteristic nuclear spin statistical intensity patterns provide striking confirmation of the indistinguishability of the sixty 12C atoms, while rovibrational fine structure encodes further details of the molecule's rare icosahedral symmetry. These observations establish new possibilities in the study and control of emergent complexity in finite-sized quantum systems such as fullerenes.