Leading-order QED effects in the ground electronic state of molecular hydrogen
Michał Siłkowski, Krzysztof Pachucki, Jacek Komasa, Mariusz Puchalski
Abstract
We perform highly accurate calculations of the leading-order QED correction to the ground electronic state of molecular hydrogen. Numerical results are obtained for a grid of the internuclear distances $R=0--10$ a.u. with the relative precision of about ${10}^{\ensuremath{-}8}$. The major numerical uncertainty of previous QED results [K. Piszczatowski, G. \L{}ach, M. Przybytek, J. Komasa, K. Pachucki, and B. Jeziorski, J. Chem. Theory Comput. 5, 3039 (2009)] has been eliminated. Nevertheless, the discrepancy with measurements in HD at the level of 1.9 $\ensuremath{\sigma}$ persists.
Topics & Concepts
Ground statePhysicsOrder (exchange)HydrogenHydrogen moleculeSigmaAtomic physicsState (computer science)Quantum mechanicsMathematicsAlgorithmEconomicsFinanceAtomic and Molecular PhysicsSpectroscopy and Laser ApplicationsAtmospheric Ozone and Climate