Electron Capture and Scaling Anomaly in Polar Molecules

Abstract

We present a new analysis of the electron capture mechanism in polar molecules, based on von Neumann's theory of self-adjoint extensions. Our analysis suggests that it is theoretically possible for polar molecules to form bound states with electrons, even with dipole moments smaller than the critical value D0 given by 1.63×10-18 esu cm. This prediction is consistent with the observed anomalous electron scattering in H2S and HCl, whose dipole moments are smaller than the critical value D0. We also show that for a polar molecule with dipole moment less than D0, typically there is only a single bound state, which is in qualitative agreement with observations. We argue that the quantum mechanical scaling anomaly is responsible for the formation of these bound states.

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