Electronically non-adiabatic transitions in high-energy CH3I+CH3I collisions computed by the quantal FMS method using the Evans-Polanyi potential

Citation:

Chajia M, LEVINE RD. Electronically non-adiabatic transitions in high-energy CH3I+CH3I collisions computed by the quantal FMS method using the Evans-Polanyi potential. CHEMICAL PHYSICS LETTERS. 1999;304 :385-392.

Date Published:

MAY 7

Abstract:

The effective energy threshold for the crossing into an electronically excited state and the post threshold rise of the yield of crossing are discussed. The time-dependent Schrodinger equation for multiple electronic states is solved using the full multiple spawning (FMS) methodology. The quantal results are compared with classical path methods. The potential energy function is of the LEP form including the electronically excited surface. For kinematic reasons, the yield is exponentially small until an effective threshold, at similar to 10 km s(-1), with a steep rise of the yield in the post threshold regime. (C) 1999 Elsevier Science B.V. All rights reserved.

Raphael D Levine

Max Born Professor Emeritus of Natural Philosophy

Electronically non-adiabatic transitions in high-energy CH3I+CH3I collisions computed by the quantal FMS method using the Evans-Polanyi potential

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