Artificial Boundary Conditions
When computing numerically the solution of a partial differential equation in an unbounded domain usually artificial boundaries are introduced to limit the computational domain. Special boundary conditions are derived at this artificial boundaries to approximate the exact whole-space solution. If the solution of the problem on the bounded domain is equal to the whole-space solution (restricted to the computational domain) these boundary conditions are called transparent boundary conditions (TBCs).
We are concerned with TBCs for general Schrödinger-type pseudo-differential equations arising from `parabolic' equation (PE) models which have been widely used for one-way wave propagation problems in various application areas, e.g. (underwater) acoustics, seismology, optics and plasma physics. As a special case the Schrödinger equation of quantum mechanics is included.
Existing discretizations of these TBCs induce numerical reflections at this artificial boundary and also may destroy the stability of the used finite difference method. These problems do not occur when using a so-called discrete TBC which is derived from the fully discretized whole-space problem. This discrete TBC is reflection-free and conserves the stability properties of the whole-space scheme. We point out that the superiority of discrete TBCs over other discretizations of TBCs is not restricted to the presented special types of partial differential equations or to our particular interior discretization scheme.
Another problem is the high numerical effort. Since the discrete TBC includes a convolution with respect to time with a weakly decaying kernel, its numerical evaluation becomes very costly for long-time simulations. As a remedy we construct new approximative TBCs involving exponential sums as an approximation to the convolution kernel. This special approximation enables us to use a fast evaluation of the convolution type boundary condition.
Finally, to illustrate the broad range of applicability of our approach we derived efficient discrete artificial boundary conditions for the Black-Scholes equation of American options.
Software
Our approach was implemented by C.A. Moyer in the QMTools software package for quantum mechanical applications.
Publications
- 2004
1293.
Bartel, Andreas
Partial differential algebraic models in chip design — thermal and semiconductor problems
20041292.
Bartel, Andreas
Partial Differential Algebraic Models in Chip Design-Thermal and Semiconductor Problems
Herausgeber: VDI-Verlag
20041291.
Bartel, A.:
Partial Differential-Algebraic Models in Chip-Design — Thermal and Semiconductor Problems
TU Munich, Fortschritt-Berichte, VDI Verlag, Düsseldorf
20041290.
Farkas, Bálint
Perturbations of bi-continuous semigroups with applications to transition semigroups on C\sb b(H)
Semigroup Forum, 68 (1) :87-107
20041289.
Melnikov, Vladlen V.; Jensen, Per
Potential energy surface and spectroscopic parameters of X\verb=~=\(^{3}\)\(\Sigma\)\(^{-}\) CNN
Chemical Physics Letters, 394 (1-3) :171-175
20041288.
Melnikov, Vladlen V.; Jensen, Per
Potential energy surface and spectroscopic parameters of X\verb=~=\(^{3}\)\(\Sigma\)\(^{-}\) CNN
Chemical Physics Letters, 394 (1-3) :171-175
20041287.
Melnikov, Vladlen V.; Jensen, Per
Potential energy surface and spectroscopic parameters of X~3Σ- CNN
Chemical Physics Letters, 394 (1-3) :171-175
20041286.
G\"unther, Michael
Preconditioned splitting in dynamic iteration schemes for coupled {DAE} systems in {RC} network design
In A. Buikis and et al., Editor, Progress in Industrial Mathematics at ECMI 2002
Seite 173--177
Herausgeber: Springer-Verlag, Berlin
2004
173--1771285.
Günther, Michael
Preconditioned splitting in dynamic iteration schemes for coupled DAE systems in RC network design
In Buikis, Andris and Čiegis, Raimondas and Fitt, Alistair D., Editor, Progress in Industrial Mathematics at ECMI 2002ausThe European Consortium for Mathematics in Industry, Seite 173–177
In Buikis, Andris and Čiegis, Raimondas and Fitt, Alistair D., Editor
Herausgeber: Springer Berlin Heidelberg
20041284.
Günther, Michael
Preconditioned splitting in dynamic iteration schemes for coupled DAE systems in RC network design
In Buikis, Andris and Čiegis, Raimondas and Fitt, Alistair D., Editor, Progress in Industrial Mathematics at ECMI 2002ausThe European Consortium for Mathematics in Industry, Seite 173–177
In Buikis, Andris and Čiegis, Raimondas and Fitt, Alistair D., Editor
Herausgeber: Springer Berlin Heidelberg
20041283.
Günther, Michael
Preconditioned splitting in dynamic iteration schemes for coupled dae systems in rc network design
Progress in Industrial Mathematics at ECMI 2002, Seite 173--177
Springer Berlin Heidelberg
20041282.
Kirsch, Stefan; Ackermann, Olaf; Harms, Klaus; Bach, Thorsten
Regioselective Isomerisation of Highly Substituted 1-Methylenecyclohexenepoxides to the Corresponding Allylic Alcohols. Influence of the Base and of the Protecting Groups
Monatshefte für Chemie / Chemical Monthly, 135 (6) :713–727
2004
ISSN: 1434-44751281.
Borkowska-Burnecka, J.; Zyrnicki, W.; Setzer, Klaus-Dieter; Fink, Ewald H.
Rotational and vibrational temperatures measured in a chemiluminescent flame from FTIR Bi\(_{2}\) emission spectra
Journal of Quantitative Spectroscopy and Radiative Transfer, 86 (1) :87-95
2004
Herausgeber: Pergamon1280.
Borkowska-Burnecka, J.; Zyrnicki, W.; Setzer, Klaus-Dieter; Fink, Ewald H.
Rotational and vibrational temperatures measured in a chemiluminescent flame from FTIR Bi\(_{2}\) emission spectra
Journal of Quantitative Spectroscopy and Radiative Transfer, 86 (1) :87-95
2004
Herausgeber: Pergamon1279.
Borkowska-Burnecka, J.; Zyrnicki, W.; Setzer, Klaus-Dieter; Fink, Ewald H.
Rotational and vibrational temperatures measured in a chemiluminescent flame from FTIR Bi2 emission spectra
Journal of Quantitative Spectroscopy and Radiative Transfer, 86 (1) :87-95
2004
Herausgeber: Pergamon1278.
Scientific Computing in Electrical Engineering -- Proceedings of the SCEE-2002 conference held in Eindhoven
In Schilders, W. H. A. and ter Maten, E. J. W. and Houben, S. H. M. J., Editor, Band 4 aus Mathematics in Industry
Herausgeber: Springer Berlin Heidelberg
2004ISBN: 3540213724
1277.
Appel, Matthew F.; McKeachie, J. Ryan; Veer, Wytze E.; Benter, Thorsten
Simple induction probe electric field meter for the detection of electrical fields generated by ion-optical electrodes
Review of Scientific Instruments, 75 (8) :2603-2607
20041276.
Appel, Matthew F.; McKeachie, J. Ryan; Veer, Wytze E.; Benter, Thorsten
Simple induction probe electric field meter for the detection of electrical fields generated by ion-optical electrodes
Review of Scientific Instruments, 75 (8) :2603-2607
20041275.
Appel, Matthew F.; McKeachie, J. Ryan; van der Veer, Wytze E.; Benter, Thorsten
Simple induction probe electric field meter for the detection of electrical fields generated by ion-optical electrodes
Review of Scientific Instruments, 75 (8) :2603-2607
20041274.
Ehrhardt, M.; Mickens, R. E.
Solutions to the Discrete {Airy} Equation: Application to Parabolic Equation Calculations
JCAM, 172 (1) :183--206
20041273.
Ehrhardt, Matthias
Solutions to the discrete Airy equation: Application to parabolic equation calculations
Journal of Computational and Applied Mathematics, 172 (1) :183–206
2004
Herausgeber: North-Holland1272.
Ehrhardt, Matthias
Solutions to the discrete Airy equation: Application to parabolic equation calculations
Journal of computational and applied mathematics, 172 (1) :183--206
2004
Herausgeber: Elsevier1271.
Winkin, Joseph J.; Callier, Frank M.; Jacob, Birgit; Partington, Jonathan R.
Spectral factorization by symmetric extraction for distributed parameter systems
SIAM J. Control Optim., 43 (4) :1435--1466
20041270.
Winkler, R.
Stochastic {DAEs} in Transient Noise Simulation
In Schilders, W. and ter Maten, J. and Houben, S., Editor, Scientific Computing in Electrical Engineering at SCEE 2002, Seite 408--415
In Schilders, W. and ter Maten, J. and Houben, S., Editor
Herausgeber: Springer
20041269.
Kahl, Christian; Günther, Michael; Roßberg, Thilo
Structure preserving stochastic integration schemes in interest rate derivative modeling
Applied Numerical Mathematics, 58 (3) :284--295
2004
Herausgeber: North-Holland
