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Representations of energy landscapes by sublevelset persistent homology: An example with <i>n</i>-alkanes

Joshua Mirth, Yanqin Zhai, Johnathan Bush, Enrique Alvarado, Howie Jordan, Mark Heim, Bala Krishnamoorthy, Markus J. Pflaum, Aurora E. Clark, Yang Zhang, Henry Adams

2021The Journal of Chemical Physics21 citationsDOIOpen Access PDF

Abstract

Encoding the complex features of an energy landscape is a challenging task, and often, chemists pursue the most salient features (minima and barriers) along a highly reduced space, i.e., two- or three-dimensions. Even though disconnectivity graphs or merge trees summarize the connectivity of the local minima of an energy landscape via the lowest-barrier pathways, there is much information to be gained by also considering the topology of each connected component at different energy thresholds (or sublevelsets). We propose sublevelset persistent homology as an appropriate tool for this purpose. Our computations on the configuration phase space of n-alkanes from butane to octane allow us to conjecture, and then prove, a complete characterization of the sublevelset persistent homology of the alkane CmH2m+2 Potential Energy Landscapes (PELs), for all m, in all homological dimensions. We further compare both the analytical configurational PELs and sampled data from molecular dynamics simulation using the united and all-atom descriptions of the intramolecular interactions. In turn, this supports the application of distance metrics to quantify sampling fidelity and lays the foundation for future work regarding new metrics that quantify differences between the topological features of high-dimensional energy landscapes.

Topics & Concepts

Energy landscapeMaxima and minimaPersistent homologyHomology (biology)Topology (electrical circuits)Computer scienceTopological data analysisCorrectnessTheoretical computer scienceMathematicsCombinatoricsBiologyAlgorithmBiochemistryMathematical analysisGeneTopological and Geometric Data AnalysisComputational Drug Discovery MethodsMetabolomics and Mass Spectrometry Studies
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