APS -48th Annual Meeting of the APS Division of Atomic, Molecular and Optical Physics - Event - Geometric phase effects in ultracold collisions of H/D with rotationally excited HD

摘要

Quantum reactive scattering calculations for the H/D + HD($v=4$, $j=1,2$)$o$ H/D + HD($v'$, $j'$)and H + H$_2$($v=4$, $j=1,2$) $o$ H + H$_2$($v'$, $j'$) exchange reactions are presented for the ground electronic state of H$_3$. A numerically exact three-dimensional time-independent scattering method based on hyperspherical coordinates is used to compute rotationally resolved reaction cross sections and non-thermal rate coefficients for collision energies between $1,mu {m K}$ and $100,{m K}$. The geometric (Berry) phase associated with the D$_{3h}$ conical intersection in H$_3$ is included using a $U(1)$ vector (gauge) potential approach. It is shown that the geometric phase leads to a significant (up to three orders of magnitude) enhancement or suppression of the ultracold reaction rate coefficients depending upon whether the interference between the reaction pathways encircling the conical intersection is constructive or destructive. The nature of the interference is governed by a newly discovered mechanism which leads to an effective quantization of the ultracold scattering phase shifts.Interesting behavior due to rotational excitation of the HD and H$_2$ is observed which might be exploited by experimentalists to control the reaction outcome.