R. Padmanaban scite author profile

In this paper the authors show how the multiconfiguration time-dependent Hartree-Fock (MCTDHF) method can be used for the calculation of electronic properties of molecules associated with the population of excited states. In contrast to other methods for correlated electron dynamics, such as configuration interaction, MCTDHF does not rely on a solution of the electronic Schrodinger equation prior to the propagation. The authors apply this approach to the calculation of vertical excitation energies, transition dipole moments, and oscillator strengths for two test molecules, lithium hydride and methane.

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Time-dependent wave packet dynamics of the H+HLi reactive scattering

Padmanaban

Mahapatra

2002

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We report the initial-state-selected and energy-resolved total reaction probabilities for the H+HLi system calculated with the aid of a time-dependent wave packet approach. The ab initio potential energy surface (PES) of Dunne et al. [Chem. Phys. Lett. 336, 1 (2001)] is employed for the purpose. The reaction probabilities are reported for both the collinear and the three-dimensional arrangements of the reacting system. In the collinear arrangement the exothermic reaction path H+HLi→H2+Li is investigated only, whereas in the three-dimensional arrangement both competing reaction paths are investigated and the channel specific reaction probabilities are reported. The hydrogen exchange channel, in general, is found to be more favored over the LiH depletion channel. Both the collinear and the three-dimensional reaction probabilities reveal that the scattering occurs via resonance formation at low energies and the dynamics follows a more direct path at high energies. The overall dynamical characteristics of the system are consistent with the absence of any barrier in the underlying PES. The effect of the rotationally and vibrationally excited reactant LiH molecule on the dynamics is discussed. The importance of the noncollinear configuration of the reacting system on the LiH depletion dynamics is also delineated.

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Quantum wave-packet dynamics of H+HLi scattering: Reaction cross section and thermal rate constant

Padmanaban

Mahapatra

2004

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The channel specific and initial state-selected reaction cross section and temperature-dependent rate constant for the title system is calculated with the aid of a time-dependent wave-packet approach and using the ab initio potential energy surface of Dunne et al. [Chem. Phys. Lett. 336, 1 (2001)]. All partial-wave contributions up to the total angular momentum J=74 are explicitly calculated within the coupled states (CS) approximation. Companion calculations are also carried out employing the standard as well as the uniform J-shifting (JS) approximation. The overall variation of reaction cross sections corresponds well to the behavior of a barrierless reaction. The hydrogen exchange channel yielding HLi+H products is seen to be more favored over the HLi depletion channel yielding Li+H(2) products at low and moderate collision energies. Sharp resonance features are observed in the cross-section results for the HLi depletion channel at low energies. Resonance features in the reaction cross sections average out with various partial-wave contributions, when compared to the same observed in the individual reaction probability curve. Except near the onset of the reaction, the vibrational and rotational excitation of the reagent HLi, in general, does not dramatically influence the reactivity of either channel. The thermal rate constants calculated up to 4000 K show nearly Arrhenius type behavior. The rate constant decreases with vibrational excitation of the reagent HLi, indicating that the cold HLi molecules are efficiently depleted in the reactive encounter with H at relatively low temperatures. The results obtained from the JS approximation are found to agree well qualitatively with the CS results.

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Coriolis-Coupled Wave Packet Dynamics of H + HLi Reaction

Padmanaban

Mahapatra

2006

J. Phys. Chem. A

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We investigated the effect of Coriolis coupling (CC) on the initial state-selected dynamics of H+HLi reaction by a time-dependent wave packet (WP) approach. Exact quantum scattering calculations were obtained by a WP propagation method based on the Chebyshev polynomial scheme and ab initio potential energy surface of the reacting system. Partial wave contributions up to the total angular momentum J=30 were found to be necessary for the scattering of HLi in its vibrational and rotational ground state up to a collision energy approximately 0.75 eV. For each J value, the projection quantum number K was varied from 0 to min (J, K(max)), with K(max)=8 until J=20 and K(max)=4 for further higher J values. This is because further higher values of K do not have much effect on the dynamics and also because one wishes to maintain the large computational overhead for each calculation within the affordable limit. The initial state-selected integral reaction cross sections and thermal rate constants were calculated by summing up the contributions from all partial waves. These were compared with our previous results on the title system, obtained within the centrifugal sudden and J-shifting approximations, to demonstrate the impact of CC on the dynamics of this system.

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Origin of electronic structure and time-dependent state averaging in the multi-configuration time-dependent Hartree–Fock approach to electron dynamics

Padmanaban

Nest

2008

Chemical Physics Letters

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R. Padmanaban

Time-dependent approach to electronically excited states of molecules with the multiconfiguration time-dependent Hartree-Fock method

Time-dependent wave packet dynamics of the H+HLi reactive scattering

Quantum wave-packet dynamics of H+HLi scattering: Reaction cross section and thermal rate constant

Coriolis-Coupled Wave Packet Dynamics of H + HLi Reaction

Origin of electronic structure and time-dependent state averaging in the multi-configuration time-dependent Hartree–Fock approach to electron dynamics

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