Ring-polymer instanton theory for tunneling between asymmetric wells
- URL: http://arxiv.org/abs/2510.26592v1
- Date: Thu, 30 Oct 2025 15:18:03 GMT
- Title: Ring-polymer instanton theory for tunneling between asymmetric wells
- Authors: Marit R. Fiechter, Gabriel Laude, Jeremy O. Richardson,
- Abstract summary: We develop a new formulation of instanton theory based on a projected flux correlation function.<n>The theory is then applied to study tunneling between non-degenerate minima in the biomolecule $alpha$-fenchol.
- Score: 0.0
- License: http://creativecommons.org/licenses/by/4.0/
- Abstract: Instanton theory has arisen as a practical tool for calculating tunneling splittings in molecular systems. Un- fortunately, the original formulation of instanton theory fundamentally breaks down when trying to calculate the level splitting in asymmetric double wells, as there is no imaginary-time periodic orbit connecting the two non-degenerate minima. We have therefore developed a new formulation of instanton theory based on a projected flux correlation function that is applicable to these asymmetric systems. Comparison with exact quantum-mechanical results in one- and two-dimensional models demonstrates that it has a reasonably high accuracy, similar to that reported for instanton theory in the symmetric case. The theory is then applied to study tunneling between non-degenerate minima in the biomolecule $\alpha$-fenchol, for which we find good agree- ment with experiment. Finally, we use the connection to instanton rate theory, which is also derived from flux correlation functions, to discuss the often misunderstood relationship between tunneling splittings and reaction rate constants.
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