AI Article Synopsis
- The study focuses on the methane-water van der Waals complex, showcasing how highly accurate energy levels and wavefunctions can be generated using Wigner D basis functions alongside the Symmetry-Adapted Lanczos (SAL) method.
- The Wigner D basis is highlighted for its efficiency in scenarios where the kinetic energy operator presents singularities, enabling better computational outcomes.
- The research identifies new spectral bands, noting particularly intense transitions between states linked to the main isomer and a secondary isomer of the complex.
Article Abstract
By doing calculations on the methane-water van der Waals complex, we demonstrate that highly converged energy levels and wavefunctions can be obtained using Wigner D basis functions and the Symmetry-Adapted Lanczos (SAL) method. The Wigner D basis is a nondirect product basis and, therefore, efficient when the kinetic energy operator has accessible singularities. The SAL method makes it possible to exploit symmetry to label energy levels and reduce the cost of the calculation, without explicitly using symmetry-adapted basis functions. Line strengths are computed, and new bands are identified. In particular, we find unusually strong transitions between states associated with the isomers of the global minimum and the secondary minimum.
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