Ammonia Inversion Energy Levels using Operator Algebra

TL;DR

This paper models ammonia inversion energy levels using operator algebra with a quartic potential, accurately reproducing the ammonia maser frequency by optimizing a free parameter.

Contribution

It introduces a novel operator algebra approach with a free frequency parameter to approximate ammonia inversion energy levels.

Findings

Eigenvalues match experimental inversion splitting.

The model reproduces the ammonia maser frequency of 24.87 GHz.

Optimizing omega improves agreement with observed data.

Abstract

The inversion potential for the ammonia molecule is approximated by a quartic function. The Hamiltonian thereby contains only even powers of p and x and a representation in terms of ladder operators a and a^+ is suggested. The frequency variable omega occurring in the operators is introduced as a free parameter, with its value to be determined such as to optimize agreement with experimental results. Using known structural parameters of the ammonia molecule, the eigenvalues for a 10 by 10 truncation of the Hamiltonian matrix are computed. The splitting between the two lowest eigenvalues corresponds to the ammonia maser frequency, 24.87 GHz, this value being reproduced by the appropriate choice of omega.