Vibrational heat-bath configuration interaction

We introduce vibrational heat-bath configuration interaction (VHCI) as an accurate and efficient method for calculating vibrational eigenstates of anharmonic systems. Inspired by its origin in electronic structure theory, VHCI is a selected CI approach that uses a simple criterion to identify important basis states with a pre-sorted list of anharmonic force constants. Screened second-order perturbation theory and simple extrapolation techniques provide significant improvements to variational energy estimates. We benchmark VHCI on four molecules with 12-48 degrees of freedom and use anharmonic potential energy surfaces truncated at fourth and sixth orders. When compared to other methods using the same truncated potentials, VHCI produces vibrational spectra of tens or hundreds of states with sub-wavenumber accuracy at low computational cost.

Automated summary

Vibrational heat-bath configuration interaction (VHCI) is an accurate and efficient method for calculating vibrational eigenstates of anharmonic systems. By selecting important basis states, using pre-sorted lists of anharmonic force constants, and utilizing screened second-order perturbation theory and simple extrapolation techniques, VHCI can produce vibrational spectra with sub-wavenumber accuracy at low computational cost compared to other methods.