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
- 2015
3125.
Bejan, Iustinian; Duncianu, Marius; Olariu, Romeo; Barnes, Ian; Seakins, Paul W.; Wiesen, Peter
Kinetic study of the gas-phase reactions of chlorine atoms with 2-chlorophenol, 2-nitrophenol, and four methyl-2-nitrophenol isomers
Journal of Physical Chemistry A, 119 (20) :4735-4745
20153124.
Bejan, Iustinian; Duncianu, Marius; Olariu, Romeo; Barnes, Ian; Seakins, Paul W.; Wiesen, Peter
Kinetic study of the gas-phase reactions of chlorine atoms with 2-chlorophenol, 2-nitrophenol, and four methyl-2-nitrophenol isomers
Journal of Physical Chemistry A, 119 (20) :4735-4745
20153123.
Bejan, Iustinian; Duncianu, Marius; Olariu, Romeo; Barnes, Ian; Seakins, Paul W.; Wiesen, Peter
Kinetic study of the gas-phase reactions of chlorine atoms with 2-chlorophenol, 2-nitrophenol, and four methyl-2-nitrophenol isomers
Journal of Physical Chemistry A, 119 (20) :4735-4745
20153122.
Blanco, Mar{í}a B.; Barnes, Ian; Wiesen, Peter; Teruel, Mariano A.
Kinetics of the reactions of Cl atoms with CF\(_{3}\)C(O)OCH\(_{3}\), CF\(_{3}\)C(O)OCH\(_{2}\)CH\(_{3}\), CF\(_{2}\)HC(O)OCH\(_{3}\) in the temperature range of 287-313K and 1atm
Chemical Physics Letters, 638 :15-20
2015
Herausgeber: North-Holland3121.
Blanco, Mar{í}a B.; Barnes, Ian; Wiesen, Peter; Teruel, Mariano A.
Kinetics of the reactions of Cl atoms with CF\(_{3}\)C(O)OCH\(_{3}\), CF\(_{3}\)C(O)OCH\(_{2}\)CH\(_{3}\), CF\(_{2}\)HC(O)OCH\(_{3}\) in the temperature range of 287-313K and 1atm
Chemical Physics Letters, 638 :15-20
2015
Herausgeber: North-Holland3120.
Blanco, María B.; Barnes, Ian; Wiesen, Peter; Teruel, Mariano A.
Kinetics of the reactions of Cl atoms with CF3C(O)OCH3, CF3C(O)OCH2CH3, CF2HC(O)OCH3 in the temperature range of 287-313K and 1atm
Chemical Physics Letters, 638 :15-20
2015
Herausgeber: North-Holland3119.
Ehrhardt, Matthias
Mathematical modelling and numerical simulation of oil pollution problems
20153118.
Mathematical Modelling and Numerical Simulation of Oil Pollution Problems
In Ehrhardt, Matthias, Editor aus The Reacting Atmosphere
Herausgeber: Springer Cham
2015ISBN: 978-3-319-16458-8
3117.
Mathematical Modelling and Numerical Simulation of Oil Pollution Problems
In Ehrhardt, Matthias, Editor aus The Reacting Atmosphere
Herausgeber: Springer Cham
2015ISBN: 978-3-319-16458-8
3116.
Tausch, Michael W.
Mehr Licht! Auch im Chemieunterricht!
{CHEMKON}, 22 (4) :161--161
2015
Herausgeber: Wiley3115.
Bredenkamp, Angela; Zhu, Zhi-Bin; Häring, Andreas P.
Method for producing chiral compounds
Mai 20153114.
Bolten, Matthias; Gottschalk, H.; Schmitz, S.
Minimal failure probability for ceramic design via shape control
J. Optim. Theory Appl., 166 :983-1001
20153113.
Bolten, M.; Gottschalk, H.; Schmitz, S.
Minimal failure probability for ceramic design via shape control
J. Optim. Theory Appl., 166 :983-1001
20153112.
Bolten, M.; Gottschalk, H.; Schmitz, S.
Minimal failure probability for ceramic design via shape control
J. Optim. Theory Appl., 166 :983---1001
20153111.
Striebel, M.; Pulch, R.; Maten, E. J. W.; Ilievski, Z.; Schilders, W. H. A.
Model order reduction and sensitivity analysis
In Günther, M., Editor, Coupled Multiscale Simulation and Optimization in Nanoelectronics Band 21 aus Mathematics in Industry
Kapitel 5.3, Seite 319--341 and 355--358
Herausgeber: Springer
2015
319--341 and 355--3583110.
Striebel, M.; Maten, E. J. W.
Model order reduction for nonlinear network problems
In Günther, M., Editor, Coupled Multiscale Simulation and Optimization in Nanoelectronics Band 21 aus Mathematics in Industry
Kapitel 6.1, Seite 362-380 and 426-428
Herausgeber: Springer
2015
362-380 and 426-4283109.
Antoulas, Athanasios C.; Ionutiu, Roxana; Martins, Nelson; Maten, E. Jan W.; Mohaghegh, Kasra; Pulch, Roland; Rommes, Joost; Saadvandi, Maryam; Striebel, Michael
Model order reduction: Methods, concepts and properties
In Günther, Michael, Editor
Seite 159–265
Herausgeber: Springer Berlin Heidelberg
2015
159–2653108.
Antoulas, Athanasios C.; Ionutiu, Roxana; Martins, Nelson; Maten, E. Jan W.; Mohaghegh, Kasra; Pulch, Roland; Rommes, Joost; Saadvandi, Maryam; Striebel, Michael
Model Order Reduction: Methods, Concepts and Properties
In Günther, M., Editor, Coupled Multiscale Simulation and Optimization in Nanoelectronics Band 21 aus Mathematics in Industry
Kapitel 4, Seite 159--265
Herausgeber: Springer
2015
159--2653107.
Antoulas, Athanasios C.; Ionutiu, Roxana; Martins, Nelson; Maten, E. Jan W.; Mohaghegh, Kasra; Pulch, Roland; Rommes, Joost; Saadvandi, Maryam; Striebel, Michael
Model order reduction: Methods, concepts and properties
In Günther, Michael, Editor
Seite 159–265
Herausgeber: Springer Berlin Heidelberg
2015
159–2653106.
Teng, Long; Emmerich, Cathrin; Ehrhardt, Matthias; G\"unther, Michael
Modelling Stochastic Correlation with modified {Ornstein-Uhlenbeck} process
ECMI book subseries of Mathematics in Industry
18th European Conference on Mathematics for Industry, Taormina, Italy
Herausgeber: Springer, Heidelberg
20153105.
Mohaghegh, K.; Pulch, R.; Maten, E. J. W.
MOR for singularly perturbed systems
In Günther, M., Editor, Coupled Multiscale Simulation and Optimization in Nanoelectronics Band 21 aus Mathematics in Industry
Kapitel 5.4, Seite 341--351 and 358--359
Herausgeber: Springer
2015
341--351 and 358--3593104.
Putek, Piotr; PAPLICKI, Piotr; Pulch, Roland; Maten, E. Jan W.; Günther, Michael; Palka, Ryszard
Multi-objective topology optimization and losses reduction in a permanent magnet excited synchronous machine
Preprint IMACM :1–10
2015
Herausgeber: Bergische Universität Wuppertal3103.
Putek, Piotr; PAPLICKI, Piotr; Pulch, Roland; Maten, E. Jan W.; Günther, Michael; Palka, Ryszard
Multi-objective topology optimization and losses reduction in a permanent magnet excited synchronous machine
Preprint IMACM :1–10
2015
Herausgeber: Bergische Universität Wuppertal3102.
Putek, Piotr; PAPLICKI, Piotr; Pulch, Roland; Maten, Jan; Günther, Michael; PA{\L}KA, Ryszard
Multi-objective topology optimization and losses reduction in a permanent magnet excited synchronous machine
20153101.
Maten, E. Jan W.; Putek, Piotr; Günther, Michael; Tischendorf, Caren; Strohm, Christian; Schoenmaker, Wim; Meuris, Peter; Smedt, Bart De; Benner, Peter; Feng, Lihong; Banagaaya, Nicodemus; Yue, Yao; Janssen, Rick; Dohmen, Jos J.; Tasic, Bratislav; others
Nanoelectronic COupled Problems Solutions - nanoCOPS
Preprint IMACM
2015
Herausgeber: Bergische Universität Wuppertal
