American Journal of Computational Mathematics

American Journal of Computational Mathematics

ISSN Print: 2161-1203
ISSN Online: 2161-1211
www.scirp.org/journal/ajcm
E-mail: ajcm@scirp.org
"A Generalized FDTD Method with Absorbing Boundary Condition for Solving a Time-Dependent Linear Schrodinger Equation"
written by Frederick Ira Moxley III, Fei Zhu, Weizhong Dai,
published by American Journal of Computational Mathematics, Vol.2 No.3, 2012
has been cited by the following article(s):
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[3] ABSORBING BOUNDARY CONDITIONS FOR THE TIME DEPENDENT SCHRÖDINGER EQUATION
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[5] An alternating-direction hybrid implicit-explicit finite-difference time-domain method for the Schrödinger equation
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[8] Numerical Solutions of Finite Well in Two Dimensions Using the Finite Difference Time Domain Method
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[9] The Solutions of Two Dimensional Finite Square Well Potential Problem Using the Finite Difference Time Domain Method
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[10] Computational Physics Notes
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[11] Nonuniform and higher-order FDTD methods for the Schrödinger equation
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[12] HO-FDTD (2, 4) scheme for solving time-dependent Schrödinger equation
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[13] Generalized Finite-Difference Time-Domain method with absorbing boundary conditions for solving the nonlinear Schrödinger equation on a GPU
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[14] Analysis on Research and Education for Electromagnetic-Applied Subjects with Finite Difference Time Domain Theory
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[15] Analyzing Quantum Time‐Dependent Singular Potential Systems in One Dimension
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[16] Numerical Simulation of FermionicWave Functions in PotentialWells: Bound State Transitions induced by Multi-Photon Excitation from Laser Sources …
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[17] Numerical simulation of fermionic wave functions in potential wells: bound state transitions induced by multi-photon excitation stimulated by laser sources …
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[18] Simulation of Time-Dependent Schrödinger Equation in the Position and Momentum Domains
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[19] Numerical Simulation of Fermionic Wave Functions in Potential Wells: Bound State Transitions induced by Multi-Photon Excitation from Laser Sources operating …
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[20] The Hydrogen Molecular Ion With Time-Dependent Magnetic Field Strength as Control
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[21] A generalized finite-difference time-domain scheme for solving nonlinear Schr?dinger equations
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[22] A G-FDTD Method for Solving the Multi-Dimensional Time-Dependent Schrodinger Equation
arXiv preprint arXiv:1212.0801, 2012
[23] A G-FDTD Method for Solving the Multi-Dimensional Time-Dependent Schrödinger Equation
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