Vorträge und Poster - Institut für Allgemeine Elektrotechnik, Uni ...

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Vorträge und Poster - Institut für Allgemeine Elektrotechnik, Uni ...

Talks and Posters

Talks

[1] G. Pöplau. Status: Simulation zu Ionen-Effekten. Projekttreffen des BMBF-

Verbundprojektes: Teilchen- und Feldsimulation für die Beschleunigerentwicklung, Universität

Rostock, November 30, 2012.

[2] G. Pöplau, A. Meseck, and U. van Rienen. Trouble with Tribbles - How Serious are Effects of

Ionized Residual Gas for Berlinpro? Seminar Advances in Computational Electromagnetism,

Universität Rostock, November 16, 2012.

[3] G. Pöplau, A. Meseck, and U. van Rienen. Trouble with Tribbles - How Serious are Effects

of Ionized Residual Gas for Berlinpro? Beschleunigerphysik-Seminar, HZB, Berlin, June 19,

2012.

[4] G. Pöplau, A. Meseck, and U. van Rienen. Simulation of the Behavior of Ionized Residual

Gas in the Field of Electrodes. Frühjahrstagung der Deutschen Physikalischen Gesellschaft,

Göttingen, February 29, 2012.

[5] G. Pöplau. Simulation of Ion Effects - Next Results. Projekttreffen des BMBF-

Verbundprojektes: Teilchen- und Feldsimulation für die Beschleunigerentwicklung, HBZ,

Berlin, January 20, 2012.

[6] G. Pöplau. Zur Lösung von inhomogenen Differenzialgleichungen 1. Ordnung durch Variation

der Konstanten - Eine anwendungsorientierte Einführung. Fachhochschule Stralsund,

November 24, 2011.

[7] G. Pöplau. Raumladungsdominierte Teilchensimulationen - die numerische Perspektive.

Mini-Workshop über Simulationen aus Perspektive des Experiments, Universität Rostock,

September 29, 2011.

[8] G. Pöplau. Simulation of Ion Effects - First Results. Projekttreffen des BMBF-

Verbundprojektes: Teilchen- und Feldsimulation für die Beschleunigerentwicklung, Universität

Rostock, September 7, 2011.

[9] G. Pöplau. Regressionsanalyse - Eine praxisorientierte Einführung. Fachhochschule Stralsund,

April 15, 2011.

[10] G. Pöplau. Ion Effects - Ion Trapping at MLS. Projekttreffen des BMBF-Verbundprojektes:

Teilchen- und Feldsimulation für die Beschleunigerentwicklung, TU Dortmund, April 7, 2011.

[11] G. Pöplau. Working Group Summary: Computational Challenges in High-Intensity Linacs,

Rings Including FFAGs and Cyclotrons. 46th ICFA Advanced Beam Dynamics Workshop

on High-Intensity and High-Brightness Hadron Beams, Morschach, Switzerland, October 1,

2010.

[12] G. Pöplau, H.-W. Glock, T. Flisgen, and U. van Rienen. Accelerator Theory and Simulation

at Rostock University. 1st LCForum Meeting, DESY, Hamburg, June 14-15, 2010.

[13] G. Pöplau. Adaptive Strategies for Efficient 3D Space Charge Calculations in the Tracking

Code GPT. Kolloquium über Methoden und Anwendungen der Feldsimulation, Universität

Rostock, June 11, 2010.

[14] G. Pöplau. Schnelle Fouriertransformation und Multigrid. Wie bewähren sich moderne numerische

Algorithmen in praktischen Anwendungen? Hochschule Wismar - Bereich Seefahrt

(Warnemünde), May 4, 2010.

[15] G. Pöplau. Schnelle Fouriertransformation und Multigrid. Wie bewähren sich moderne numerische

Algorithmen in praktischen Anwendungen? Hochschule Wismar, April 28, 2010.


[16] G. Pöplau. Die effiziente Berechnung von Raumladungskräften im Design von Teilchenbeschleunigern.

MAMI-Seminar, Johannes-Gutenberg-Universität Mainz, December 10, 2009.

[17] G. Pöplau. An Adaptive Multigrid Strategy for Efficient 3D Space Charge Calculations.

Kolloquium über Methoden und Anwendungen der Feldsimulation, Universität Rostock,

December 3, 2009.

[18] G. Pöplau. Efficient 3D Space Charge Calculations. Helmholtz-Zentrum Berlin-Adlershof,

October 26, 2009.

[19] G. Pöplau. An Efficient 3D Space Charge Routine with Self-Adaptive Discretization. ICAP

2009 (10th International Computational Accelerator Physics Conference), San Francisco,

USA, September 31-October 4.

[20] G. Pöplau. Fast 3D Spce Charge Calculations. Kolloquium über Methoden und Anwendungen

der Feldsimulation, Universität Rostock, June 12, 2009.

[21] G. Pöplau. Microbunch Amplification at Low Energies. Kolloquium über Methoden und

Anwendungen der Feldsimulation, Universität Rostock, November 19, 2008.

[22] G. Pöplau. Microbunch Effects in a X-Ray Free Electron Laser. Kolloquium über Methoden

und Anwendungen der Feldsimulation, Universität Rostock, June 13, 2008.

[23] G. Pöplau. Performance of Multigrid in the Context of Beam Dynamics Simulations. Mecklenburger

Workshop über Approximationsmethoden und schnelle Algorithmen, Hasenwinkel,

June 6-8, 2008.

[24] G. Pöplau and U. van Rienen. Performance of Multigrid in the Context of Beam Dynamics

Simulations. PIERS 2008 (Progress in Electromagnetics Research Symposium), Hangzhou,

China, March 24-28, 2008.

[25] G. Pöplau. 3D Space Charge Routines: The Software Package MOEVE and FFT Poisson

Solvers. Mini-Workshop on Space-Charge in FELs, BESSY, Berlin, December 13, 2007.

[26] G. Pöplau. 3D Space Charge Routines: The Software Package MOEVE and FFT Poisson

Solvers. Accelerator Physics Seminar, DESY, Hamburg, December 4, 2007.

[27] G. Pöplau and U. van Rienen. Ein adaptiver Multigrid-Algorithmus zur Berechnung von

Raumladungsfeldern in Freien-Elektronen-Lasern. 12. Symposium Maritime Elektrotechnik,

Elektronik, Informationstechnik, Universität Rostock, Germany, Oktober 8-10, 2007.

[28] A. Markoviḱ, G. Pöplau, and U. van Rienen. A 3D Tracking Algorithm for Bunches in Beam

Pipes with Elliptical Cross Section and a short Concept for the Simulation of the Interaction

with an E-Cloud. 12. Symposium Maritime Elektrotechnik, Elektronik, Informationstechnik,

Universität Rostock, Germany, Oktober 8-10, 2007.

[29] G. Pöplau. 3D Space Charge Routines: The Software Package MOEVE and FFT Poisson

Solvers. Workshop on Advances in Electromagnetic Research, Riezlern, Austria, August

19-24, 2007.

[30] G. Pöplau. 3D Space Charge Routines: Multigrid and FFT Compared. ACE’07, Aachen,

Germany, June 28-30, 2007.

[31] G. Pöplau. 3D Space Charge Routines: Multigrid and FFT Compared. Kolloquium über

Methoden und Anwendungen der Feldsimulation, Universität Rostock, June 8, 2007.

[32] G. Pöplau. 3D Space Charge Routines: Multigrid and FFT Compared. ECLOUD’07, Daegu,

Korea, April 9-12, 2007.

[33] A. Markoviḱ and G. Pöplau. Simulation Progress and Plans at Rostock/DESY. ECL2

(Workshop on Electron Cloud Clearing), CERN, Geneva, Switzerland, March 1-2, 2007.


[34] G. Pöplau. Fast Space Charge Calculations with a Multigrid Poisson Solver and Applications.

Kolloquium über Methoden und Anwendungen der Feldsimulation, Universität Rostock,

September 7-8, 2005.

[35] G. Pöplau. Fast Space Charge Calculations with a Multigrid Poisson Solver and Applications.

Accelerator Physics Seminar, DESY, Hamburg, April 26, 2005.

[36] G. Pöplau, D. Potts, and U. van Rienen. Calculation of 3D Space-Charge Fields of Bunches

of Charged Particles by Fast Summation. SCEE 2004 (5th International Workshop

on Scientific Computing in Electrical Engineering), Capo d’Orlando, Italy, September 5-9,

2004.

[37] G. Pöplau and U. van Rienen. Schnelle Algorithmen zur Berechung von Raumladungsfeldern

in Paketen geladener Teilchen. 11. Symposium Maritime Elektronik 2004, Rostock, June

3-4, 2004.

[38] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. A Wavelet Based Approach

to Space-Charge Calculations for Charged Particle Beams. PIERS 2004 (Progress in

Electromagnetics Research Symposium), Pisa, Italy, March 28-31, 2004.

[39] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. Algorithms for the Fast Calculation

of 3D Space-Charge Effects in Accelerator Design. TU Eindhoven, The Netherlands,

November 25, 2003.

[40] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. Algorithms for the Fast

Calculation of Space-Charge Effects in Accelerator Design. Tagung der Deutschen Mathematiker

Vereinigung (DMV), Rostock, September 14-19, 2003.

[41] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. Algorithms for the Fast

Calculation of Space-Charge Effects in Accelerator Design. Gamm-Workshop on Multigrid

Methods and Hierarchical Solution Techniques, Leipzig, August 25-27, 2003.

[42] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. Multigrid Aspects of the New

Fast 3D Space-Charge Routine in the GPT Code. Workshop on Advances in Electromagnetic

Research, Heringsdorf, August 10-15, 2003.

[43] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. Adaptive Mehrgitterverfahren

zur Simulation von Elektronenstrahlen. Mecklenburger Workshop über Approximationsmethoden

und schnelle Algorithmen, Hasenwinkel, June 4-6„ 2003.

[44] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. Adaptive Mehrgitterverfahren

zur Verfolgung von Elektronenstrahlen. 22. Norddeutsches Kolloquium über Angewandte

Analysis und Numerik, Lübeck, May 9-10, 2003.

[45] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. Aspects of the New Fast 3D

Space-Charge Routine in the GPT Code. XIIth ICFA Beam Dynamics Mini-Workshop on

High Intensity and High Brightness Beams - Space Charge Simulations, Oxford, UK, April

2-4, 2003.

[46] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. Mehrgitterlöser zur effizienten

Berechnung von Raumladungskräften für das Design von Elektronenstrahlen. Forschungskolloquium

über Numerische Mathematik, Universität Rostock, December 4, 2002.

[47] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. A Multigrid Based 3D Space-

Cahrge Routine in the Tracking Code GPT. ICAP 2002 (7th International Computational

Accelerator Physics Conference), East Lansing, Michigan, USA, October 15-18, 2002.

[48] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. First Results of a new Space-

Charge Routine in GPT. Workshop on Advances in Electromagnetic Research, Riezlern,

Austria, August 19-23, 2002.


[49] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. Fast Calculation of Space

Charge in Beam Line Tracking by Multigrid Techniques. SCEE 2002 (4th International

Workshop on Scientific Computing in Electrical Engineering), Eindhoven, The Netherlands,

June 23-28, 2002.

[50] G. Pöplau and U. van Rienen. Adaptive Mehrgitterverfahren zur Verfolgung von Elektronenstrahlen.

Kolloquium über Methoden und Anwendungen der Feldsimulation, Universität

Rostock, October 26, 2001.

[51] G. Pöplau and U. van Rienen. Schnelle Berechnung der Raumladungskräften beim Tracking

mittels Multigrid. Workshop on Advances in Electromagnetic Research, Riezlern, Austria,

August 19-23, 2001.

[52] G. Pöplau and U. van Rienen. Mehrgitterlöser zur schnellen Berechnung von Raumladungskräften

beim Tracking. MAFIA 4 Workshop, Darmstadt, July 30-August 1, 2001.

[53] G. Pöplau and U. van Rienen. EMV(U) - Elektromagnetische (Umwelt-) Verträglichkeit. Abschlussveranstaltung

der BMBF-Förderinitiative zu Einsatz und Nutzung drahtloser Kommunikation,

Rostock, June 18, 2001.

[54] G. Pöplau and U. van Rienen. Mehrgitterlöser zur Verfolgung von Elektronenstrahlen in

Linearcollidern. 10. Symposium Maritime Elektrotechnik, Warnemünde, June 6-8, 2001.

[55] G. Pöplau and U. van Rienen. Mehrgitterlöser zur Verfolgung von Elektronenstrahlen in

Linearcollidern. Mini-Workshop on Computational Electromagnetics, Kepler Universität

Linz, March 6, 2001.

[56] G. Pöplau and U. van Rienen. Multigrid Algorithms for the Tracking of Electron Beams.

GAMM-workshop on Computational Electromagnetics, Kiel, January 26-28, 2001.

[57] G. Pöplau and U. van Rienen. Fast Multigrid Solvers for the Tracking of Electron Beams.

ICAP 2000 (6th International Computational Accelerator Physics Conference), Darmstadt,

Germany, September 11-14, 2000.

[58] G. Pöplau and U. van Rienen. Adaptive Mehrgitterverfahren für das Verfolgung von Elektronenstrahlen.

21. Norddeutsches Kolloquium über Angewandte Analysis und Numerik,

Berlin, May 19-20, 2000.

[59] G. Pöplau and U. van Rienen. Multigrid Algorithms for the Tracking of Electron Beams.

EMG ’99 (6th European Multigrid Conference), Gent, Belgium, September 27-30, 1999.

[60] G. Pöplau and U. van Rienen. Schnelle Berechnung der Raumladungskräften beim Tracking

mittels Multigrid. Workshop on Advances in Electromagnetic Research, Zingst, August,

1999.

[61] G. Pöplau. Eine Einführung in die Multigrid Methode. Kolloquium über Methoden und

Anwendungen der Feldsimulation, Universität, Rostock, June 18, 1999.

[62] G. Pöplau. Fast Direct Solvers for Elliptical Partial Differential Equations in Shift-Invariant

Periodic Spaces. Multiscale Methods in Numerical Analysis, WIAS, Berlin, March 27-April

1, 1995.

[63] G. Pöplau. Fast Poisson Solvers in Shift-Invariant Spaces. 8th Texas International Conference

on Approximation Theory, College Station, Texas, USA, January 8-12, 1995.

[64] G. Brumme. Box Spline Interpolation and the Solution of the Poisson Problem. 2nd International

Conference on Curves and Surfaces, Chamonix Mont-Blanc, France, June 10-16,

1993.


Posters

[1] G. Pöplau, A. Meseck, A. Markoviḱ, and U. van Rienen. Simulations for Ion Clearing in an

ERL. ICAP 2012 (Proceedings of the 11th International Computational Accelerator Physics

Conference), Rostock-Warnemünde, Germany, August 19 - 24, 2012.

[2] A. Meseck, G. Pöplau, and U. van Rienen. Numerical Studies on the Influence of Fill

Patterns on Ion Clouds. ICAP 2012 (Proceedings of the 11th International Computational

Accelerator Physics Conference), Rostock-Warnemünde, Germany, August 19 - 24, 2012.

[3] G. Pöplau, A. Meseck, and U. van Rienen. Simulation of the Behavior of Ionized Residual

Gas in the Field of Electrodes. IPAC 2012 (3rd International Particle Accelerator Conference).

[4] A. Markoviḱ, G. Pöplau, and U. van Rienen. Computation of the 2D Transverse Wake

Function of an Electron Cloud for Different Parameters. IPAC 2012 (3rd International

Particle Accelerator Conference).

[5] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. Recent Developments

for Efficient 3D Space Charge Computations Based on Adaptive Multigrid Discretizations.

IPAC 2011 (2nd International Particle Accelerator Conference).

[6] G. Pöplau, A. Meseck, and U. van Rienen. Simulation of the Interaction of an Electron Beam

with Ionized Residual Gas. IPAC 2011 (2nd International Particle Accelerator Conference).

[7] A. Markoviḱ, G. Pöplau, and U. van Rienen. Simulation of the Single Bunch Instability due

to the Electron Cloud Effect by Tracking with a Pre-Computed 2D Wake Matrix. IPAC 2011

(2nd International Particle Accelerator Conference).

[8] G. Pöplau and U. van Rienen. Efficient 3D Space Charge Calculations with Adaptive Discretization

Based on Multigrid. IPAC 2010 (1st International Particle Accelerator Conference),

Kyoto, Japan, May 23 - 28, 2010.

[9] A. Markoviḱ, G. Pöplau, and U. van Rienen. 3D PIC Computation of a Transversal Tune

Shift caused by an Electron Cloud in a Positron Storage Ring. IPAC 2010 (1st International

Particle Accelerator Conference), Kyoto, Japan, May 23 - 28, 2010.

[10] T. Flisgen, G. Pöplau, and U. van Rienen. A Fast Point to Point Interaction Model for Charged

Particle Bunches by Means of Nonequispaced Fast Fourier Transform (NFFT). ICAP

2009 (10th International Computational Accelerator Physics Conference), San Francisco,

USA, September 31-October 4.

[11] A. Markoviḱ, G. Pöplau, and U. van Rienen. Computation of a Two Variable Wake Field

Induced by an Electron Cloud. ICAP 2009 (10th International Computational Accelerator

Physics Conference), San Francisco, USA, September 31-October 4.

[12] G. Pöplau, U. van Rienen, and K. Flöttmann. The Performance of 3D Space Charge Models

For High Brightness Electron Bunches. EPAC 2008 (11th European Particle Accelerator

Conference), Genova, Italy, June 22-27, 2008.

[13] A. Markoviḱ, G. Pöplau, and U. van Rienen. The 3D Space Charge Solver MOEVE and the

2D Basetti-Erskine Formula in the Context of Beam - E-Cloud Simulations. EPAC 2008

(11th European Particle Accelerator Conference), Genova, Italy, June 22-27, 2008.

[14] Ch. Bahls, G. Pöplau, and U. van Rienen. Efficient 3D Space Charge Calculations by Self-

Adaptive Multigrid Methods Using the Chombo Framework. EPAC 2008 (11th European

Particle Accelerator Conference), Genova, Italy, June 22-27, 2008.


[15] G. Pöplau and U. van Rienen. A Self-Adaptive Multigrid Technique for 3D Space Charge

Calculations. COMPUMAG 2007 (16th Conference on the Computation of Electromagnetic

Fields), Aachen, Germany, June 24-28, 2007.

[16] G. Pöplau, U. van Rienen, and K. Flöttmann. New 3D Space Charge Routines in the Tracking

Code Astra. ICAP 2006 (7th International Computational Accelerator Physics Conference),

Chamonix Mont-Blanc, France, October 2-6, 2006.

[17] A. Markoviḱ, G. Pöplau, U. van Rienen, and R. Wanzenberg. Tracking Code with 3-D Space-

Charge Calculations Taking into Account the Elliptical Shape of the Beam Pipe. ICAP 2006

(7th International Computational Accelerator Physics Conference), Chamonix Mont-Blanc,

France, October 2-6, 2006.

[18] G. Pöplau, U. van Rienen, and K. Flöttmann. 3D Space Charge Calculations for Bunches

in the Tracking Code Astra. EPAC 2006 (10th European Particle Accelerator Conference),

Edinburgh, Great Britan, June 25-July 1, 2006.

[19] A. Markoviḱ, G. Pöplau, U. van Rienen, and K. Flöttmann. Simulation of 3D Space Charge

Fields of Bunches in a Beam Pipe of Elliptical Shape. EPAC 2006 (10th European Particle

Accelerator Conference), Edinburgh, Great Britain, June 25-July 1, 2006.

[20] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. A Fast 3D Multigrid Based

Space-Charge Routine in the GPT Code. EPAC 2004 (8th European Particle Accelerator

Conference), Lucerne, Switzerland, July 5-9, 2004.

[21] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. Progress in 3D Space-Charge

Calculations in the GPT Code. ICAP 2004 (8th International Computational Accelerator

Physics Conference), St. Petersburg, Russia, June 29-July 2, 2004.

[22] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. Multigrid Algorithms for the

Fast Calculation of Space-Charge Effects in Accelerator Design. COMPUMAG 2003 (14th

Conference on the Computation of Electromagnetic Fields), Saratoga Springs, New York,

USA, July 13-17, 2003.

[23] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. Fast Calculation of Space

Charge in Beam Line Tracking by Multigrid Techniques. SCEE 2002 (4th International

Workshop on Scientific Computing in Electrical Engineering), Eindhoven, The Netherlands,

June 23-28, 2002.

[24] G. Pöplau, U. van Rienen, S.B. van der Geer, and M.J. de Loos. A Fast 3D Multigrid Based

Space-Charge Routine in the GPT Code. EPAC 2002 (8th European Particle Accelerator

Conference), Paris, France, June 3-7, 2002.

[25] G. Pöplau, V. Motrescu, and U. van Rienen. Simulation elektromagnetischer Felder von

Geräten mobiler Kommunikation. Innovationsforum MICON, Mobilität im Internet und in

Kommunikationsnetzwerken, Rostock, November 19-20, 2001.

[26] G. Pöplau and U. van Rienen. Fast Computation of Space Charge Forces for the Tracking

of Electron Beams. Cern Accelerator School, Loutraki, Greece, October 2-13, 2000.

[27] G. Pöplau and U. van Rienen. Fast Calculation of Space Charge in Beam Line Tracking by

Multigrid Techniques. SCEE 2000 (3th International Workshop on Scientific Computing in

Electrical Engineering), Warnemünde, August 20-23, 2000.

[28] G. Pöplau, U. van Rienen, J. Staats, and T. Weiland. Fast Algorithms for the Tracking

of Electron Beams. EPAC 2000 (8th European Particle Accelerator Conference), Vienna,

Austria, June 26-30, 2000.


[29] G. Pöplau and U. van Rienen. Adaptive Multigrid Algorithms for the Tracking of Electron

Beams. GAMM-Workshop on Adaptive Methods-Error Estimators, Kiel, January 21-23,

2000.

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