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arxiv: 2503.18231 · v1 · pith:N5U3XAPWnew · submitted 2025-03-23 · ❄️ cond-mat.mtrl-sci

Accurate and Efficient Phonon Calculations in Molecular Crystals via Minimal Molecular Displacements

classification ❄️ cond-mat.mtrl-sci
keywords molecularcalculationscrystalscalculationcomputationaldisplacementsdynamicsmethod
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Vibrational dynamics governs the fundamental properties of molecular crystals, shaping their thermodynamics, mechanics, spectroscopy, and transport phenomena. However desirable, the first-principles calculation of solid-state vibrations, i.e.\ phonons, stands as a major computational challenge in molecular crystals characterized by many atoms in the unit cell and by weak intermolecular interactions. Here we propose a formulation of the harmonic lattice dynamics based on a natural basis of molecular coordinates consisting of rigid-body displacements and intramolecular vibrations. This enables a sensible \emph{minimal molecular displacement} approximation for the calculation of the dynamical matrix, combining isolated molecule calculations with only a small number of expensive crystal supercell calculations, ultimately reducing the computational cost by up to a factor 10. The comparison with reference calculations demonstrates the quantitative accuracy of our method, especially for the challenging and dispersive low-frequency region it is designed for. Our method provides an excellent description of the thermodynamic properties and offers a privileged molecular-level insight into the complex phonons band structure of molecular materials.

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