Marnix Van Daele

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2011

20 D. Hollevoet, Marnix Van Daele, Guido Vanden Berghe: Exponentially fitted methods applied to fourth-order boundary value problems. J. Computational Applied Mathematics 235(18): 5380-5393 (2011)

19 Guido Vanden Berghe, Marnix Van Daele: Symplectic exponentially-fitted four-stage Runge-Kutta methods of the Gauss type. Numerical Algorithms 56(4): 591-608 (2011)

2010

18 Veerle Ledoux, Marnix Van Daele: Solving Sturm-Liouville problems by piecewise perturbation methods, revisited. Computer Physics Communications 181(8): 1335-1345 (2010)

17 Marc J. Goovaerts, Stefan Vandewalle, Marnix Van Daele: Preface. J. Computational Applied Mathematics 234(4): 949 (2010)

16 Veerle Ledoux, Marnix Van Daele: Solution of Sturm--Liouville Problems Using Modified Neumann Schemes. SIAM J. Scientific Computing 32(2): 563-584 (2010)

2009

15 Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe: Efficient computation of high index Sturm-Liouville eigenvalues for problems in physics. Computer Physics Communications 180(2): 241-250 (2009)

14 Guido Vanden Berghe, Marnix Van Daele: Trigonometric polynomial or exponential fitting approach? J. Computational Applied Mathematics 233(4): 969-979 (2009)

2008

13 Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe: Using a (Higher-Order) Magnus Method to Solve the Sturm-Liouville Problem. ICCS (1) 2008: 1032-1041

12 Margarit Rizea, Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe, Nicolae Carjan: Finite difference approach for the two-dimensional Schrödinger equation with application to scission-neutron emission. Computer Physics Communications 179(7): 466-478 (2008)

2007

11 Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe: A numerical procedure to solve the multichannel Schrödinger eigenvalue problem. Computer Physics Communications 176(3): 191-199 (2007)

10 Marnix Van Daele, Guido Vanden Berghe: P-stable Obrechkoff methods of arbitrary order for second-order differential equations. Numerical Algorithms 44(2): 115-131 (2007)

9 Marnix Van Daele, Guido Vanden Berghe: P-stable exponentially-fitted Obrechkoff methods of arbitrary order for second-order differential equations. Numerical Algorithms 46(4): 333-350 (2007)

2006

8 Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe: Piecewise Constant Perturbation Methods for the Multichannel Schrödinger Equation. International Conference on Computational Science (4) 2006: 716-723

7 Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe: CPM{P, N} methods extended for the solution of coupled channel Schrödinger equations. Computer Physics Communications 174(5): 357-370 (2006)

6 Veerle Ledoux, Margarit Rizea, L. Gr. Ixaru, Guido Vanden Berghe, Marnix Van Daele: Solution of the Schrödinger equation by a high order perturbation method based on a linear reference potential. Computer Physics Communications 175(6): 424-439 (2006)

5 Veerle Ledoux, L. Gr. Ixaru, Margarit Rizea, Marnix Van Daele, Guido Vanden Berghe: Solution of the Schrödinger equation over an infinite integration interval by perturbation methods, revisited. Computer Physics Communications 175(9): 612-619 (2006)

2005

4 Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe: MATSLISE: A MATLAB package for the numerical solution of sturm-liouville and schrödinger equations. ACM Trans. Math. Softw. 31(4): 532-554 (2005)

2004

3 Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe: CP methods of higher order for Sturm-Liouville and Schrödinger equations. Computer Physics Communications 162(3): 151-165 (2004)

1996

2 Marnix Van Daele, Guido Vanden Berghe, H. De Meyer: Explicit Fifth Order Runge-Kutta Methods with Five Stages for Quadratic ODEs. WNAA 1996: 528-535

1 T. Van Hecke, Marnix Van Daele, Guido Vanden Berghe, H. De Meyer: P-stable Mono-Implicit Runge-Kutta-Nyström Modifications of the Numerov Method. WNAA 1996: 536-545

	2011
20		D. Hollevoet, Marnix Van Daele, Guido Vanden Berghe: Exponentially fitted methods applied to fourth-order boundary value problems. J. Computational Applied Mathematics 235(18): 5380-5393 (2011)
19		Guido Vanden Berghe, Marnix Van Daele: Symplectic exponentially-fitted four-stage Runge-Kutta methods of the Gauss type. Numerical Algorithms 56(4): 591-608 (2011)
	2010
18		Veerle Ledoux, Marnix Van Daele: Solving Sturm-Liouville problems by piecewise perturbation methods, revisited. Computer Physics Communications 181(8): 1335-1345 (2010)
17		Marc J. Goovaerts, Stefan Vandewalle, Marnix Van Daele: Preface. J. Computational Applied Mathematics 234(4): 949 (2010)
16		Veerle Ledoux, Marnix Van Daele: Solution of Sturm--Liouville Problems Using Modified Neumann Schemes. SIAM J. Scientific Computing 32(2): 563-584 (2010)
	2009
15		Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe: Efficient computation of high index Sturm-Liouville eigenvalues for problems in physics. Computer Physics Communications 180(2): 241-250 (2009)
14		Guido Vanden Berghe, Marnix Van Daele: Trigonometric polynomial or exponential fitting approach? J. Computational Applied Mathematics 233(4): 969-979 (2009)
	2008
13		Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe: Using a (Higher-Order) Magnus Method to Solve the Sturm-Liouville Problem. ICCS (1) 2008: 1032-1041
12		Margarit Rizea, Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe, Nicolae Carjan: Finite difference approach for the two-dimensional Schrödinger equation with application to scission-neutron emission. Computer Physics Communications 179(7): 466-478 (2008)
	2007
11		Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe: A numerical procedure to solve the multichannel Schrödinger eigenvalue problem. Computer Physics Communications 176(3): 191-199 (2007)
10		Marnix Van Daele, Guido Vanden Berghe: P-stable Obrechkoff methods of arbitrary order for second-order differential equations. Numerical Algorithms 44(2): 115-131 (2007)
9		Marnix Van Daele, Guido Vanden Berghe: P-stable exponentially-fitted Obrechkoff methods of arbitrary order for second-order differential equations. Numerical Algorithms 46(4): 333-350 (2007)
	2006
8		Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe: Piecewise Constant Perturbation Methods for the Multichannel Schrödinger Equation. International Conference on Computational Science (4) 2006: 716-723
7		Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe: CPM{P, N} methods extended for the solution of coupled channel Schrödinger equations. Computer Physics Communications 174(5): 357-370 (2006)
6		Veerle Ledoux, Margarit Rizea, L. Gr. Ixaru, Guido Vanden Berghe, Marnix Van Daele: Solution of the Schrödinger equation by a high order perturbation method based on a linear reference potential. Computer Physics Communications 175(6): 424-439 (2006)
5		Veerle Ledoux, L. Gr. Ixaru, Margarit Rizea, Marnix Van Daele, Guido Vanden Berghe: Solution of the Schrödinger equation over an infinite integration interval by perturbation methods, revisited. Computer Physics Communications 175(9): 612-619 (2006)
	2005
4		Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe: MATSLISE: A MATLAB package for the numerical solution of sturm-liouville and schrödinger equations. ACM Trans. Math. Softw. 31(4): 532-554 (2005)
	2004
3		Veerle Ledoux, Marnix Van Daele, Guido Vanden Berghe: CP methods of higher order for Sturm-Liouville and Schrödinger equations. Computer Physics Communications 162(3): 151-165 (2004)
	1996
2		Marnix Van Daele, Guido Vanden Berghe, H. De Meyer: Explicit Fifth Order Runge-Kutta Methods with Five Stages for Quadratic ODEs. WNAA 1996: 528-535
1		T. Van Hecke, Marnix Van Daele, Guido Vanden Berghe, H. De Meyer: P-stable Mono-Implicit Runge-Kutta-Nyström Modifications of the Numerov Method. WNAA 1996: 536-545

Coauthor Index

1 Guido Vanden Berghe [1] [2] [3] [4] [5] [6] [7] [8] [9] [10] [11] [12] [13] [14] [15] [19] [20]

2 Nicolae Carjan [12]

3 Marc J. Goovaerts [17]

4 T. Van Hecke [1]

5 D. Hollevoet [20]

6 Liviu Gr. Ixaru (L. Gr. Ixaru) [5] [6]

7 Veerle Ledoux [3] [4] [5] [6] [7] [8] [11] [12] [13] [15] [16] [18]

8 H. De Meyer [1] [2]

9 Margarit Rizea [5] [6] [12]

10 Stefan Vandewalle [17]

Colors in the list of coauthors

Last update Tue May 29 01:28:40 2012 CET by the DBLP Team —

Data released under the ODC-BY 1.0 license — See also our legal information page

1	Guido Vanden Berghe	[1] [2] [3] [4] [5] [6] [7] [8] [9] [10] [11] [12] [13] [14] [15] [19] [20]
2	Nicolae Carjan	[12]
3	Marc J. Goovaerts	[17]
4	T. Van Hecke	[1]
5	D. Hollevoet	[20]
6	Liviu Gr. Ixaru (L. Gr. Ixaru)	[5] [6]
7	Veerle Ledoux	[3] [4] [5] [6] [7] [8] [11] [12] [13] [15] [16] [18]
8	H. De Meyer	[1] [2]
9	Margarit Rizea	[5] [6] [12]
10	Stefan Vandewalle	[17]