Journal ArticleDOI
Conical intersections and diabatic potential energy surfaces for the three lowest electronic singlet states of H3
TLDR
The beyond Born-Oppenheimer approach could incorporate the effect of NACTs accurately and construct single-valued, continuous, smooth, and symmetric diabatic PESs.Abstract:
We calculate the adiabatic Potential Energy Surfaces (PESs) and the Non-Adiabatic Coupling Terms (NACTs) for the three lowest singlet states of H3 (+) in hyperspherical coordinates as functions of hyperangles (θ and ϕ) for a grid of fixed values of hyperradius (1.5 ⩽ ρ ⩽ 20 bohrs) using the MRCI level of methodology employing ab initio quantum chemistry package (MOLPRO). The NACT between the ground and the first excited state translates along the seams on the θ - ϕ space, i.e., there are six Conical Intersections (CIs) at each θ (60° ⩽ θ ⩽ 90°) within the domain, 0 ⩽ ϕ ⩽ 2π. While transforming the adiabatic PESs to the diabatic ones, such surfaces show up six crossings along those seams. Our beyond Born-Oppenheimer approach could incorporate the effect of NACTs accurately and construct single-valued, continuous, smooth, and symmetric diabatic PESs. Since the location of CIs and the spatial amplitudes of NACTs are most prominent around ρ = 10 bohrs, generally only those results are depicted.read more
Citations
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Journal ArticleDOI
Beyond Born-Oppenheimer theory for ab initio constructed diabatic potential energy surfaces of singlet H3+ to study reaction dynamics using coupled 3D time-dependent wave-packet approach
Sandip Ghosh,Saikat Mukherjee,Bijit Mukherjee,Souvik Mandal,Rahul Sharma,Pinaki Chaudhury,Satrajit Adhikari +6 more
TL;DR: The workability of beyond Born-Oppenheimer theory to construct diabatic potential energy surfaces (PESs) of a charge transfer atom-diatom collision process has been explored by performing scattering calculations to extract accurate integral cross sections (ICSs) and rate constants for comparison with most recent experimental quantities.
Journal ArticleDOI
Beyond Born–Oppenheimer theory for spectroscopic and scattering processes
TL;DR: In this article, the development on beyond Born-Oppenheimer (BBO) theory and its implementation on various models and realistic molecular processes as carried out over the last 15 years are reviewed.
Journal ArticleDOI
Coupled 3D Time-Dependent Wave-Packet Approach in Hyperspherical Coordinates: The D++H2 Reaction on the Triple-Sheeted DMBE Potential Energy Surface
TL;DR: A coupled three-dimensional (3D) time-dependent wave packet formalism for the 4D reactive scattering problem in hyperspherical coordinates is implemented on the accurate double many body expansion (DMBE) potential energy surface.
Journal ArticleDOI
Ab initio constructed diabatic surfaces of NO2 and the photodetachment spectra of its anion.
TL;DR: The analytic expressions for the adiabatic PESs and ADT angles are provided to represent a two-state three-mode diabatic Hamiltonian of NO2 for performing nuclear dynamics to calculate the photo-electron spectra of its anion.
Journal ArticleDOI
A beyond Born-Oppenheimer treatment of five state molecular system NO3 and the photodetachment spectra of its anion
TL;DR: In this article, a five-state multimode non-adiabatic dynamics has been performed on NO 3 by constructing accurate diabatic potential energy surfaces (PESs) in vibronically coupled manifold using beyond Born-Oppenheimer (BBO) theory.
References
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On the determination of Born–Oppenheimer nuclear motion wave functions including complications due to conical intersections and identical nuclei
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