QED effects in molecules: test on rotational quantum states of H2
Abstract
Quantum electrodynamic effects have been systematically tested in the progression of rotational quantum states in the X 1g+, v=0 vibronic ground state of molecular hydrogen. High-precision Doppler-free spectroscopy of the EF 1g+ - X 1g+ (0,0) band was performed with 0.005 cm-1 accuracy on rotationally-hot H2 (with rotational quantum states J up to 16). QED and relativistic contributions to rotational level energies as high as 0.13 cm-1 are extracted, and are in perfect agreement with recent calculations of QED and high-order relativistic effects for the H2 ground state.
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