Litcius/Paper detail

A Fresh Look at the Role of the Coupling of a Discrete State with a Pseudocontinuum State in the Stabilization Method for Characterizing Metastable States

Benjamin Carlson, Michael F. Falcetta, Stephen R. Slimak, Kenneth D. Jordan

2021The Journal of Physical Chemistry Letters10 citationsDOI

Abstract

The stabilization method is widely used to theoretically characterize temporary anions and other systems displaying resonances. In this approach, information about a metastable state is encoded in the interaction of a diabatic discrete state and discretized continuum solutions, the energy of which are varied by scaling the extent of the basis set. In this work, we identify the aspects of the coupling between the discrete state and the discretized continuum states that encode information about the existence of complex stationary points and, hence, complex resonance energies in stabilization graphs. This allows us to design a simple two-level model for extracting complex resonance energies from stabilization graphs. The resulting model is applied to the 2Πg anion state of N2.

Topics & Concepts

MetastabilityDiabaticDiscretizationStatistical physicsResonance (particle physics)State (computer science)Coupling (piping)ScalingPhysicsMathematicsQuantum mechanicsMathematical analysisAlgorithmMaterials scienceAdiabatic processGeometryMetallurgySpectroscopy and Quantum Chemical StudiesAdvanced Chemical Physics StudiesQuantum, superfluid, helium dynamics
A Fresh Look at the Role of the Coupling of a Discrete State with a Pseudocontinuum State in the Stabilization Method for Characterizing Metastable States | Litcius