The radiative lifetime of metastable CO ($a^3Î , v=0$)
arXiv:0710.2240 · doi:10.1063/1.2813888
Abstract
We present a combined experimental and theoretical study on the radiative lifetime of CO in the $a^3Î _{1,2}, v=0$ state. CO molecules in a beam are prepared in selected rotational levels of this metastable state, Stark-decelerated and electrostatically trapped. From the phosphorescence decay in the trap, the radiative lifetime is measured to be $2.63\pm0.03$ ms for the $a^3Î _1, v=0, J=1$ level. From spin-orbit coupling between the $a^3Î $ and the $A^1Î $ state a 20% longer radiative lifetime of 3.16 ms is calculated for this level. It is concluded that coupling to other $^1Î $ states contributes to the observed phosphorescence rate of metastable CO.
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