Shenglai He scite author profile

Shenglai He

4Publications

46Citation Statements Received

127Citation Statements Given

How they've been cited

How they cite others

276

126

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Vanderbilt University

Publications

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Accurate time propagation method for the coupled Maxwell and Kohn-Sham equations

Russakoff

et al. 2016

Phys. Rev. E

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An accurate method for time propagation of the coupled Maxwell and time-dependent Kohn-Sham (TDKS) equation is presented. The new approach uses a simultaneous fourth-order Runge-Kutta-based propagation of the vector potential and the Kohn-Sham orbitals. The approach is compared to the conventional fourth-order Taylor propagation and predictor-corrector methods. The calculations show several computational and numerical advantages, including higher computational performance, greater stability, better accuracy, and faster convergence.

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Accuracy and computational efficiency of real-time subspace propagation schemes for the time-dependent density functional theory

Russakoff

et al. 2016

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Time-dependent Density Functional Theory (TDDFT) has become successful for its balance of economy and accuracy. However, the application of TDDFT to large systems or long time scales remains computationally prohibitively expensive. In this paper, we investigate the numerical stability and accuracy of two subspace propagation methods to solve the time-dependent Kohn-Sham equations with finite and periodic boundary conditions. The bases considered are the Lánczos basis and the adiabatic eigenbasis. The results are compared to a benchmark fourth-order Taylor expansion of the time propagator. Our results show that it is possible to use larger time steps with the subspace methods, leading to computational speedups by a factor of 2-3 over Taylor propagation. Accuracy is found to be maintained for certain energy regimes and small time scales.

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Time-dependent density-functional theory simulation of local currents in pristine and single-defect zigzag graphene nanoribbons

Russakoff

et al. 2016

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The spatial current distribution in H-terminated zigzag graphene nanoribbons (ZGNRs) under electrical bias is investigated using time-dependent density-functional theory solved on a real-space grid. A projected complex absorbing potential is used to minimize the effect of reflection at simulation cell boundary. The calculations show that the current flows mainly along the edge atoms in the hydrogen terminated pristine ZGNRs. When a vacancy is introduced to the ZGNRs, loop currents emerge at the ribbon edge due to electrons hopping between carbon atoms of the same sublattice. The loop currents hinder the flow of the edge current, explaining the poor electric conductance observed in recent experiments. Published by AIP Publishing.

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Study of local currents in low dimension materials using complex injecting potentials

Covington

Varga

2018

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A complex potential is constructed to inject electrons into the conduction band, mimicking electron currents in nanoscale systems. The injected electrons are time propagated until a steady state is reached. The local current density can then be calculated to show the path of the conducting electrons on an atomistic level. The method allows for the calculation of the current density vectors within the medium as a function of energy of the conducting electron. Using this method, we investigate the electron pathway of graphene nanoribbons in various structures, molecular junctions, and black phosphorus nanoribbons. By analyzing the current flow through the structures, we find strong dependence on the structural geometry and the energy of the injected electrons. This method may be of general use in the study of nano-electronic materials and interfaces.

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Shenglai He

Accurate time propagation method for the coupled Maxwell and Kohn-Sham equations

Accuracy and computational efficiency of real-time subspace propagation schemes for the time-dependent density functional theory

Time-dependent density-functional theory simulation of local currents in pristine and single-defect zigzag graphene nanoribbons

Study of local currents in low dimension materials using complex injecting potentials

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