First-principles thermodynamics of Al10V: An analytical treatment of localized anharmonic modes
Many complex intermetallic structures possess cagelike environments that can host additional guest atoms. In Al10V, these atoms give rise to low-frequency, localized vibrations (Einstein modes) that dominate the thermodynamic response at low temperature. They become imaginary under volume expansion as temperature rises, invalidating the harmonic approximation. Here, we develop a framework to incorporate these strongly anharmonic vibrational modes into first-principles thermodynamic calculations. By explicitly modeling the cage potential and solving the associated Schrödinger equation numerically, we compute the full anharmonic free energy contribution and demonstrate its impact on the thermodynamic behavior of Al10V. This allows us to examine structures withmore »