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HTTP/1.1 200 OKx-amz-id-2: t2kN45lLsfewEBN7D22ES2saQiN7fo65tkuWoj4OTIxyGnDPApbxvIpF7uf0y/85mRH0qWEvq4O/HA+3/4LwO/IrLPGQ61ctx-amz-request-id: P9NBQ0JSF0ATRJW5Date: Fri, 24 Oct 2025 16:49:49 GMTLast-Modified: Fri, 17 May 2019 13:09:55 GMTETag: bf066038715ad4959f9637ecfcfabe7aContent-Type: text/htmlContent-Length: 22761Server: AmazonS3

!DOCTYPE html>!-- saved from url(0017)http://vanroo.se/ -->html>head>meta http-equivContent-Type contenttext/html; charsetwindows-1252>meta namegoogle-site-verification contentE4V_58vXb__NDX3r_6vkJJ_iJUItQlMX10R7-xAA36E />style>.center {    margin-left: auto;    margin-right: auto;    width: 70%;}/style>style typetext/css>/style>/head>body>div classcenter>p>Full chronoogical publications list of submitted and published papers is on my a hrefhttp://scholar.google.be/citations?userWXDHu0IAAAAJ>google scholar profile/a> /p>h1>Krylov solvers that hide latencies and avoid communication./h1>p>The current generation of iterative methods give a poor performance onmodern hardware since communication and synchronization costs dominateover the cost of the floating point operations. We are working oncommunication avoiding and hiding in iterative Krylov methods andintroduced so-called em>pipelined Krylov/em> methods where the latencyassociated with dot-products is hidden behind other computations.  Itoffers a much better performance in strong scaling experiments.  Weare currently also working on high-arithmetic intensity Krylov methodsthat are build on top of kernels that can be SIMD vectorized./p>p>img height300 width400 alignmiddle srchttp://win.ua.ac.be/~wvroose/pipe_GMRES.png>/p>ul>li>p>S. Cools, J. Cornelis and W. Vanroose, em>Numerically Stable Recurrence Relations for the Communication Hiding Pipelined Conjugate Gradient Method,/em>accepted in IEEE transactions on parallel and distributed systems, preprint arXiv:1902.03100 (2019).  a hrefhttps://arxiv.org/pdf/1902.03100.pdf>PDF/a>/p>/li>li>p>E. Agullo, S. Cools, E. Fatih-Yetkin, L. Giraud and W. Vanroose,em>On soft errors in the Conjugate Gradient method: sensitivity androbust numerical detection,/em>submitted , Inria RESEARCH REPORT9226, HAL Id: hal-01929738(2018). a hrefhttps://hal.inria.fr/hal-01929738/document>PDF/a>/p>/li>li>p>J. Cornelis, S. Cools and W. Vanroose,em>The Communication-Hiding Conjugate Gradient Method with Deep Pipelines/em>submitted, arXiv preprint arXiv:1801.04728, (2018). a hrefhttps://arxiv.org/pdf/1801.04728.pdf>PDF/a>/p>/li>li>p>S. Cools, E. F. Yetkin, E. Agullu, L. Giraud, W.Vanroose,em>Analyzing the effect of local rounding error propagation on the  maximal attainable accuracy of the pipelined conjugate gradient  method,/em>SIAM journal on matrix analysis and  applications b>39/b>:1, p. 426-450 (2018).a hrefhttps://hal.inria.fr/hal-01753411/document>PDF/a>/p>/li>li>p>S. Cools and W. Vanroose,em>The communication-hiding pipelined BiCGstab method for the parallel solution of large unsymmetric linear systems,/em>Parallel Computing, b>65/b> p1-20 (2017). a hrefhttps://doi.org/10.1016/j.parco.2017.04.005>URL/a>/p>/li>li>p>W. Vanroose, P. Ghysels, D. Roose, and K.Meerbergen, em>Hiding globalcommunication latency and increasing the arithmetic intensity inextreme-scale Krylov solvers/em>, Position Paper at DOE/ASCR workshopon Applied Mathematics Research for Exascale Computing. August21-22, 2013,a hrefhttps://collab.mcs.anl.gov/download/attachments/7569466/examath13_submission_22.pdf>PDF/a>./p>/li>li>p>P. Ghysels and W. Vanroose, em>Modeling the performance of geometricmultigrid on many-core computer architectures/em>, SIAM J. on Scientific Computing,  b>37/b> I2  pC194-C216 (2015)(2013). a hrefhttp://www.exascience.com/wp-content/uploads/2013/09/techreport.09.2013.1.pdf>PDF/a>/p>/li>li>p>P. Ghysels and W. Vanroose, em>Hiding global synchronization latencyin the preconditioned Conjugate Gradient algorithm/em>, ParallelComputing, In Press, p1-15 (2014)a hrefhttp://www.exascience.com/wp-content/uploads/2012/12/Ghysels_12.2012.1.pdf>PDF/a>/p>/li>li>p>P. Ghysels, T. Ashby, K. Meerbergen, and W. Vanroose, em>Hiding globalcommunication latency in the GMRES algorithm on massively parallelmachines/em>, SIAM Journal on Scientific Computing, strong>35/strong> (1)C48-C71, ExaScience Lab Technical Report 04.2012.1 (2013)a hrefhttp://www.exascience.com/wp-content/uploads/2012/02/Ghysels_latency_gmres.pdf>PDF/a>/p>/li>li>p>P. Ghysels, P. Klosiewicz, and W. Vanroose, em>Improving thearithmetic intensity of multigrid with the help of polynomialsmoothers/em>, Numerical Linear Algebra with Applications, strong>19/strong>p253-267 (2012)a hrefhttp://www.exascience.com/wp-content/uploads/2011/11/Ghysels_CopperMountain2011_Final.pdf>PDF/a>/p>/li>li>p>W. Heirman, T.E. Carlson, S. Sarkar, P. Ghysels, W. Vanroose, andL. Eeckhout, em>Using Fast and Accurate Simulation to ExploreHardware/Software Trade-offs in the Multi-Core Era/em>, ParCoProceedings. (2011). a hrefhttps://biblio.ugent.be/publication/1959541/file/1959542.pdf>PDF/a>/p>/li>li>p>T. Ashby, P. Ghysels, W. Heirman, and W. Vanroose, em>The Impact ofGlobal Communication Latency at Extreme Scales on Krylov Methods/em>Springer Lecture Notes in Computer Science, proceedings of ICA3PP-12,(2012)./p>/li>/ul>h1>Bottom-up models in systems biology./h1>p>img height300 width300 alignmiddle srchttp://win.ua.ac.be/~wvroose/pattern_bio.png>/p>ul>li>p>D. Draelants, D. Avitabile, and W. Vanroose, em>Localised auxin peaksin concentration-based transport models for plants/em>, Royal Society Interface, b>12/b> 106     p20141407   (2015)a hrefhttp://arxiv.org/pdf/1403.3926>PDF/a>./p>/li>li>p>D. Draelants, J. Broeckhove, G. Beemster and W. Vanroose, em>Patternformation in a cell based auxin transport model with numericalbifurcation analysis/em>, Journal of Mathematical Biology, strong>67/strong>p1279-1305 (2013) a hrefhttp://arxiv.org/pdf/1202.5161>PDF/a>/p>/li>li>p>D. De Vos, A. Dzhurakhalov, D. Draelants, I. Bogaerts, S. Kalve,E. Prinsen, K. Vissenberg, W. Vanroose, J. Broeckhove, andG. Beemster, em>Towards mechanistic models of plant organ growth/em>,Journal of Experimental Botany strong>63/strong> p3325-3337 (2012)a hrefhttp://jxb.oxfordjournals.org/content/63/9/3325.full.pdf+html>PDF/a>/p>/li>li>p>D. Draelants, W. Vanroose, J. Broeckhove, and G. Beemster,em>Influence of an exogeneous model parameter on the steady states in an auxin transport model/em>, 4th International Symposium on Plant Growth Modeling, Simulation, Visualization and Applications (PMA) (2012)./p>/li>/ul>h1>Solvers for Helmholtz and Schr�dinger equations/h1>p>We are developing methods to solve the d-dimensional scatteringHelmholtz and Schr�dinger equations based on multigrid. /p>p>img width200 height200 alignmiddle srchttp://win.ua.ac.be/~wvroose/wave.png>/p>ul>li>p> S. Cools and W. Vanroose,em>On the Optimality of Shifted Laplacian in a Class of Polynomial Preconditioners for the Helmholtz Equation,/em>In: Lahaye D., Tang J., Vuik K. (eds) Modern Solvers for Helmholtz Problems. Birkhauser (2017).li>p>S. Cools and W.Vanroose,em> A fast and robust computational method for the ionization cross sections of the driven Schrodinger equation using an O(N) multigrid-based scheme,/em>Journal of Computational Physics, b>308/b> p20-39 (2016).a hrefhttps://doi.org/10.1016/J.JCP.2015.12.019>URL/a>/p>/li>li>p>S. Cools, B. Reps and W. Vanroose, em>An  efficient multigrid method calculation of the far field map for  Helmholtz and Schr�dinger problems/em>,  SIAM journal of  Scientific Computing, b>36/b>(4) B367-B395 (2014) a hrefhttp://arxiv.org/pdf/1211.4461>PDF/a>/p>/li>li>p>S. Cools, B. Reps and W. Vanroose, em>A new level-dependent coarse grid correction scheme for indefinite  Helmholtz problems/em>, Numerical Linear Algebra with Applications, In Press, (2013) a hrefhttp://arxiv.org/pdf/1211.4752>PDF/a>/p>/li>li>p>S. Cools and W. Vanroose, em>Local Fourier  Analysis of the Complex Shifted Laplacian preconditioner for  Helmholtz problems/em>,  Numerical Linear Algebra with Applications,  strong>20/strong>(4) p575-597 (2013) a hrefhttp://arxiv.org/pdf/1112.5346>PDF/a>/p>/li>li>p>B. Reps, W. Vanroose, and H. bin Zubair, em>GMRES-based multigrid for the complex scaled preconditoner for the indefinite Helmholtz equation/em>, Numerical Linear Algebra with Applications, Submitted, (2013). a hrefhttp://arxiv.org/pdf/1012.5379v2>PDF/a>./p>/li>li>p>B. Reps and W. Vanroose, em>Analyzing the wave number dependency of the convergence rate of a  multigrid preconditioned Krylov method for the helmholtz equation with an  absorbing layer/em>, Numerical Linear Algebra with Applications, strong>19/strong> p232-252 (2012) a hrefhttp://arxiv.org/pdf/1105.3047>PDF/a>/p>/li>li>p>H. bin Zubair, B. Reps, and W. Vanroose, em>A preconditioned iterative solver for the scattering solutions of the  Schr�dinger equation/em>, Communications in Computational Physics, strong>11/strong> p415-434 (2012) a hrefhttp://arxiv.org/pdf/1012.4307>PDF/a>/p>/li>li>p>B. Reps, W. Vanroose, and H. bin Zubair, em>On the indefinite Helmholtz equation: Complex stretched absorbing  boundary layers, iterative analysis, and preconditioning/em>, Journal of Computational Physics, strong>229/strong>, p8384--405 (2010) a hrefhttp://arxiv.org/pdf/0912.0180>PDF/a>/p>/li>/ul>h1>Inverse problems and Tomography /h1>ul>li>p> N. Schenkels and W. Vanroose,   em>Projected Newton method for a system of Tikhonov-Morozov equations,/em>  submitted, arXiv:1809.01627 (2018). a hrefhttps://arxiv.org/pdf/1809.01627.pdf>PDF/a>/p>/li>li>N. Schenkels and  W. Vanroose, em>Regula falsi based automatic regularization method for PDE constrained optimization/em>Journal of Computational and Applied Mathematics, b>348/b>, 14-25 (2019). a hrefhttps://doi.org/10.1016/j.cam.2018.08.050>URL/a>li>p> K. Ruymbeek and W.Vanroose, em>Algorithm for the reconstruction of dynamic objects in CT-scanning using optical flow, /em>submitted arXiv:1905.00723 (2018).  a hrefhttps://arxiv.org/pdf/1905.00723.pdf>PDF/a>p>/li>li>p>V. Melicher, T.Haber, and W. Vanroose,em>Fast derivatives of likelihood functionals for ODE based models using adjoint-state method,/em>Computational Statistics, b>32/b>, p1621-1643 (2017). a hrefhttps://www.arxiv.org/pdf/1606.04406v3>PDF/a>/p>/li>li>p>S. Cools, P. Ghysels, W. van Aarle, and W. Vanroose em>A multi-levelpreconditioned Krylov method for the efficient solution of algebraictomographic reconstruction problems/em>,J. Computational and Applied Mathematics arxiv:1310.0956a hrefhttp://arxiv.org/pdf/1310.0956>PDF/a>/p>/li>li>p>W. van Aarle, P. Ghysels, J. Sijbers, and W. Vanroose, em>Memoryaccess optimization for iterative tomography on many-corearchitectures/em>, Fully Three-Dimensional Image Reconstruction inRadiology and Nuclear Medicine, 369-372. (2012)a hrefhttp://www.visielab.ua.ac.be/sites/default/files/fully3d_wvaarle.pdf>PDF/a>/p>/li>/ul>h1>Multiscale Methods for Kinetic Models./h1>p>We are developing new numerical lifting operators for problemsdescribed by the Boltzmann equation./p>p>img height200 width300 alignmiddle srchttp://win.ua.ac.be/~wvroose/cr.png>/p>ul>li>p>Y. Vanderhoydonc and W. Vanroose, em>Constrained runs algorithm as a lifting operator for the one-dimensional in space boltzmann equation with BGK collision term,/em> SIAM Multiscale Modeling & Simulation b>14/b> p1488-1512 (2016). a hrefhttps://doi.org/10.1137/140983549>PDF/a>li>p>Y. Vanderhoydonc and W. Vanroose, em>Initialization of lattice Boltzmann models with the help of the numerical Chapman-Enskog expansion/em>,  Procedia  Computers Science, strong>18/strong> p1036-1045 (2013). a hrefhttp://www.sciencedirect.com/science/article/pii/S1877050913004122>PDF/a>/p>/li>li>p>Y. Vanderhoydonc and W. Vanroose, em>Numerical extraction of macroscopic pde and lifting operator from a lattice boltzmann model/em>,  SIAM Multiscale Modeling & Simulation, strong>10/strong>(3) p766-791, a hrefhttp://arxiv.org/pdf/1108.4919v2>PDF/a>/p>/li>li>p>Y. Vanderhoydonc and W. Vanroose, em>Lifting in hybrid lattice Boltzmann and PDE models/em>, Computing and Visualization in Science,  strong>14/strong>  p67-78 (2011),  a hrefhttp://twna.ua.ac.be/sites/twna.ua.ac.be/files/main2.pdf>PDF/a>/p>/li>li>p>Y. Vanderhoydonc, W. Vanroose, C. Vandekerckhove, P. Van Leemput,and D. Roose, em>Numerical lifting for lattice Boltzmann models/em>.chapter in Novel Trends in Lattice Boltzmann Methods: Reactive Flow,Physicochemical Transport and Fluid-Structure Interaction. BerthamPublisher, (2012)./p>/li>li>p>G. Samaey, C. Vandekerckhove, and W. Vanroose, em>A multilevel algorithm to compute steady states of lattice Boltzmann models/em>, Coping with complexity : model reduction and data analysis / Gorban, Alexander N. edit.; et al. edit. a hrefhttp://www.cs.kuleuven.be/publicaties/rapporten/tw/TW560.pdf>PDF/a>/p>/li>li>p>G. Samaey and W. Vanroose, em>An analysis of equivalent operator preconditioning for equation-free  Newton-Krylov methods/em>, SIAM Journal on Numerical Analysis, strong>48/strong> p633-658 (2010) a hrefhttps://lirias.kuleuven.be/bitstream/123456789/222924/1/tw537.pdf>PDF/a>/p>/li>li>p>G. Samaey, W. Vanroose, D. Roose, and I.G. Kevrekidis, em>Newton-Krylov solvers for the equation-free computation of coarse  traveling waves/em>, Computer Methods in Applied Mechanics and Engineering,strong>197/strong> (43-44)  p3480--3491 (2008) a hrefhttp://ftp.cs.kuleuven.ac.be/publicaties/rapporten/tw/TW456.pdf>PDF/a>/p>/li>li>p>P. Van Leemput, C. Vandekerckhove, W. Vanroose, and D. Roose,  em>Accuracy of hybrid lattice boltzmann/finite difference schemes for reaction-diffusion systems/em>, SIAM Multiscale Modeling & Simulation, strong>6/strong>, p838--857  (2007) a hrefhttp://www.cs.kuleuven.be/publicaties/rapporten/tw/TW476.pdf>PDF/a>/p>/li>li>p>P. Van Leemput, W. Vanroose, and D. Roose, em>Mesoscale analysis of the equation-free constrained runs  initialization scheme/em>, SIAM Multiscale Modeling & Simulation  strong>6/strong> p1234--1255  (2007) a hrefhttps://lirias.kuleuven.be/bitstream/123456789/161948/1/VLVaRoMMS07CRL.pdf>PDF/a>/p>/li>/ul>h1>Solvers for Nonlinear Schr�dinger equations./h1>p>Nonlinear Schr�dinger equations are used to model a wide range ofapplications. We have developed efficient solvers that scaleoptimally./p>p>img height300 width200 alignmiddle srchttp://win.ua.ac.be/~wvroose/nicobif.png>/p>ul>li>p>M. Wouters and Wim Vanroose, em>Automatic explorationtechniques for the numerical bifurcation study of the Ginzburg-Landauequation/em> submitted to SIAM dynamical systems, 2019, a hrefhttps://arxiv.org/pdf/1903.02377.pdf>PDF/a>/p>/li>li>p>N. Schl�mer, M.V. Milosevic, B. Partoens, and W. Vanroose,em>Exploration of stable and unstable vortex patterns in a superconductor under a magnetic disc/em>,arxiv:1304.8081 a hrefhttp://arxiv.org/pdf/1304.8081>PDF/a>/p>/li>li>p>N. Schl�mer, D. Avitabile, M. V. Milošević, B. Partoens, and W. Vanrooseem>Efficient determination of the energy landscape of nonlinear Schr�dinger-type equations/em>,arxiv:1209.6064 a hrefhttp://arxiv.org/pdf/1209.6094>PDF/a>/p>/li>li>p>N. Schl�mer and W. Vanroose, em>An optimal linear solver for theJacobian system of the extreme type-II Ginzburg--Landau problem/em>,Journal of Computational Physics, strong>234/strong> p560-572 (2013) a hrefhttp://arxiv.org/pdf/1204.5125>PDF/a>/p>/li>li>p>N. Schl�mer, D. Avitabile, and W. Vanroose, em>Numerical bifurcation study of superconducting patterns on a square/em>, SIAM Journal of Applied Dynamical Systems, strong>11/strong> p447-477 (2012) a hrefhttp://arxiv.org/pdf/1102.1212>PDF/a>/p>/li>/ul>h1>Numerical Continuation of Resonances./h1>p>We have have introduced numerical continuation to track resonances inquantum mechanical systems. Numerical Continuation is frequently usedin dynamical systems.  The method can track transition betweenresonantand bound state in single channel problems, coupled channel problemswith equal and unequal tresholds./p>p>img height400 width250 border0 alignmiddle srchttp://win.ua.ac.be/~wvroose/numcontres.png>/p>ul>li>p>P. Klosiewicz, W. Vanroose, and J. Broeckhove, em>Numerical continuation of bound and resonant state of the two channel Schr�dinger equation/em>,  Physical Review A., strong>85/strong> p012709 (2012) a hrefhttp://arxiv.org/pdf/1101.0692>PDF/a>/p>/li>li>p>P. Klosiewicz, J. Broeckhove and W. Vanroose, em>Numerical Continuation of resonances and bound states in coupled channel Schr�dinger equation/em>, Communications in Computational Physics, strong>11/strong> p435-455 (2012). a hrefhttp://arxiv.org/pdf/1012.0131>PDF/a>/p>/li>li>p>P. Klosiewicz, J. Broeckhove, and W. Vanroose, em>Using pseudo-arclength continuation to trace the resonances of the Schr�dinger equation/em>, Computer Physics Communications, strong>180/strong> (4) p545--548 (2009) a hrefhttp://www.sciencedirect.com/science/article/pii/S0010465508003949>URL/a>/p>/li>li>p>W. Vanroose, J. Broeckhove, and P. Klosiewicz, em>Tracing the parameter dependence of quantum resonances with numerical continuation/em>, Journal of physics B - Atomic Molecular and Optical Physics, strong>42/strong> p044002  (2009) a hrefhttp://www.researchgate.net/publication/230962072_Tracing_the_parameter_dependence_of_quantum_resonances_with_numerical_continuation/file/e0b49526cfc4b6c838.pdf>PDF/a>/p>/li>/ul>h1>Scattering and breakup of molecular systems./h1>p>img height300 width200 border0 alignmiddle srchttp://www2.lbl.gov/Science-Articles/Archive/assets/images/2005/Dec-15/H2_photoionization.jpg>/p>ul>li>p>L. Tao, W. Vanroose, B. Reps, T.N. Rescigno, and C.W. McCurdy,em>Long-time solution of the time-dependent Schr�dinger equation foran atom in an electromagnetic field using complex coordinatecontours/em>, Physical Review A, strong>80/strong> p063419 (2009)a hrefhttp://escholarship.org/uc/item/5z30d76d>PDF/a>/p>/li>li>p>T.N. Rescigno, W. Vanroose, D.A. Horner, F.Martin, andC.W. McCurdy, em>First principles study of double photoionization ofH-2 using exterior complex scaling/em>,Journal of Electron Spectroscopyand Related Phenomena strong>161/strong> p85--89 (2007)a hrefhttp://www.sciencedirect.com/science/article/pii/S0368204807000710>PDF/a>./p>/li>li>p>D.A. Horner, W. Vanroose, T.N. Rescigno, F. Martin, andC.W. McCurdy, em>Role of nuclear motion in double ionization ofmolecular hydrogen by a single photon/em>, Physical Review Letters,strong>98/strong> (cover story) p073001 (2007)a hrefhttp://www.osti.gov/scitech/servlets/purl/927829>PDF/a>/p>/li>li>p>W. Vanroose, D. A. Horner, F. Martin, T. N. Rescigno, andC. W. McCurdy, em>Double photoionization of aligned molecularhydrogen/em>, Physical Review A strong>74/strong> p052702 (2006)a hrefhttp://escholarship.org/uc/item/1v77f02q.pdf>PDF/a>/p>/li>li>p>W. Vanroose, F. Martin, T.N. Rescigno, and C.W. McCurdy, em>Completephoto-induced breakup of the H-2 molecule as a probe of molecularelectron correlation/em>, Science, strong>310/strong> p1787--1789,(2005)a hrefhttp://escholarship.org/uc/item/1n963004.pdf>PDF/a>/p>/li>li>p>W. Vanroose, F. Martin, T.N. Rescigno, and C.W. McCurdy,em>Nonperturbative theory of double photoionization of the hydrogenmolecule/em>, Physical Review A, strong>70/strong> ({5}), (rapid) p050703(2004). a hrefhttp://escholarship.org/uc/item/9814s618.pdf>PDF/a>/p>/li>li>p>Z.Y. Zhang, W. Vanroose, C.W. McCurdy, A.E. Orel, and T.N.Rescigno,em>Low-energy electron scattering of NO: Ab initio analysis of the(3)Sigma(-), (1)Delta, and (1)Sigma(+) shape resonances in the localcomplex potential model/em>, Physical Review A, strong>69/strong> p062711 (2004)a hrefhttp://journals.aps.org/pra/abstract/10.1103/PhysRevA.69.062711>PDF/a>/p>/li>li>p>W. Vanroose, Z.Y. Zhang, C.W. McCurdy, and T.N. Rescigno, em>Thresholdvibrational excitation of CO2 by slow electrons/em>, Physical ReviewLetters, strong>92/strong> ({5}) p053201 (2004)a hrefhttp://win.ua.ac.be/~wvroose/publications/6.pdf>PDF/a>/p>/li>li>p>W. Vanroose, C.W. McCurdy, and T.N. Rescigno, em>Scattering of slowelectrons by polar molecules: Application of effective-rangepotential theory to HCl/em>, Physical Review A, strong>68/strong>({5}) p05713(2003)a hrefhttp://journals.aps.org/pra/abstract/10.1103/PhysRevA.68.052713>PDF/a>/p>/li>li>p>W. Vanroose, C.W. McCurdy, and T.N.Rescigno, em>Interpretation oflow-energy electron-CO2 scattering/em>, Physical Review A, strong>66/strong> ({3})p032713 (2002)a hrefhttp://win.ua.ac.be/~wvroose/publications/4.pdf>PDF/a>/p>/li>/ul>h1>Scattering in the oscillator representation/h1>p>img height200 width250 border0 aligncenter srchttp://win.ua.ac.be/~wvroose/oscil.png>/p>ul>li>p>Y. Bidasyuk and W. Vanroose, em>Improving the convergence ofscattering calculations in the oscillator representation/em>, JournalComputational Physics, strong>234/strong> p60-78 (2013)a hrefhttp://arxiv.org/pdf/1111.3902>PDF/a>/p>/li>li>p>Y. Bidasyuk, W. Vanroose, J.Broeckhove, F. Arickx, andV. Vasilevsky, em>Hybrid method (JM-ECS) combining the J-matrix andexterior complex scaling methods for scattering calculations/em>,Physical Review C, strong>82/strong> p064603 (2010)a hrefhttp://arxiv.org/pdf/1009.2661>PDF/a>/p>/li>li>p>J. Broeckhove, F. Arickx, W. Vanroose, and V.S. Vasilevsky, em>Themodified J-matrix method for short range potentials/em>, Journal ofPhysics A - mathematical and general, strong>37/strong> p7769--7781 (2004)a hrefhttp://win.ua.ac.be/~wvroose/publications/8.pdf>PDF/a>/p>/li>li>p>W. Vanroose, J. Broeckhove, and F. Arickx, em>Modified J-matrix methodfor scattering/em>, Physical Review Letters, strong>88/strong>, p010404 (2002)a hrefhttp://win.ua.ac.be/~wvroose/publications/3.pdf>PDF/a>/p>/li>/ul>/div>iframe idrdbIndicator width100% height270 border0 src./index_files/indicator.html styledisplay: none; border: 0; position: fixed; left: 0; top: 0; z-index: 2147483647>/iframe>/body>/html>

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