A Relationship between the Molecular Parity-Violation Energy and the Electronic Chirality Measure

Abstract

When the weak-forces producing parity-violating effects are taken into account, there is a tiny energy difference between the total electronic energies of two enantiomers ( EPV), which might be the key to understand the evolution of the biological homochirality. We focus on the electronic chirality measure (ECM), a powerful descriptor based on the electronic charge density, for quantifying the chirality degree of a molecule, for a representative set of chiral molecules, together with their EPV energies. Our results show a novel, strong and positive correlation between EPV and ECM, supporting a subtle interplay between the weak-forces acting within the nuclei of a given molecule and its chirality. These findings suggest that experimental investigations for molecular parity violation detection should consider molecules with as large ECM values as possible, and may support that a chiral signature is imprinted on life by fundamental physics via the parity-violating weak interactions.

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