Precisely Spun Super Rotors
Abstract
Improved optical control of molecular quantum states promises new applications including chemistry in the quantum regime, precision tests of fundamental physics, and quantum information processing. While much work has sought to prepare ground state molecules, excited states are also of interest. We demonstrate a broadband optical approach to pump trapped SiO molecules into pure super rotor ensembles maintained for many minutes. Super rotor ensembles pumped up to rotational state , corresponding to the peak of a 9400 K distribution, had a narrow spread comparable to that of a few-kelvin sample, and were used for spectroscopy of the previously unobserved C state. Significant centrifugal distortion of super rotors pumped up to allowed probing electronic structure of SiO stretched far from its equilibrium bond length.
Cite
@article{arxiv.2008.01904,
title = {Precisely Spun Super Rotors},
author = {Ivan O. Antonov and Patrick R. Stollenwerk and Sruthi Venkataramanababu and Ana P. de Lima Batista and Antonio G. S. de Oliveira-Filho and Brian C. Odom},
journal= {arXiv preprint arXiv:2008.01904},
year = {2021}
}