Interaction of Diatomic Molecules with Photon Angular Momentum

Abstract

The interaction of a diatomic molecule with photons carrying well-defined angular momentum and parity is investigated to determine whether photon absorption can induce molecular rotational transitions between states having angular momentum J >1. A transformation from laboratory coordinates to coordinates with origin at the center-of-mass of the nuclei is used to obtain the interaction between the photons and the molecule's center-of-mass, electronic, and rotational degrees of freedom. For molecules making transitions between rotational levels, there is a small parameter, k a 1 , where k is the photon wave vector and a is the size of the molecule, which enters into the Ej and Mj photon absorption probabilities. For electric photons having arbitrary angular momentum j , the probability of absorbing an E(j+1) photon divided by the probability of absorbing an Ej photon, scales as (k a)2 /(2 j+1)2. The probability of absorbing an Mj photon, divided by the probability of absorbing and Ej photon scales according to the same factor.