PRX Quantum (Sep 2022)

Collision-Induced C_{60} Rovibrational Relaxation Probed by State-Resolved Nonlinear Spectroscopy

  • Lee R. Liu,
  • P. Bryan Changala,
  • Marissa L. Weichman,
  • Qizhong Liang,
  • Jutta Toscano,
  • Jacek Kłos,
  • Svetlana Kotochigova,
  • David J. Nesbitt,
  • Jun Ye

DOI
https://doi.org/10.1103/PRXQuantum.3.030332
Journal volume & issue
Vol. 3, no. 3
p. 030332

Abstract

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Quantum state-resolved spectroscopy was recently achieved for C_{60} molecules when cooled by buffer gas collisions and probed with a midinfrared frequency comb. This rovibrational quantum state resolution for the largest molecule on record is facilitated by the remarkable symmetry and rigidity of C_{60}, which also present new opportunities and challenges to explore energy transfer between quantum states in this many-atom system. Here we combine state-specific optical pumping, buffer gas collisions, and ultrasensitive intracavity nonlinear spectroscopy to initiate and probe the rotation-vibration energy transfer and relaxation. This approach provides the first detailed characterization of C_{60} collisional energy transfer for a variety of collision partners, and determines the rotational and vibrational inelastic collision cross sections. These results compare well with our theoretical modeling of the collisions, and establish a route towards quantum state control of a new class of unprecedentedly large molecules.