Appendix D. Bibliography

Author(s)

Title

Amon J. / Berwian P. / Mueller G.

Computer-Assisted Growth of Low-EPD GaAs with 3" Diameter by the Vertical Gradient-Freeze Technique;

Journal of Crystal Growth 198/199, (1999) 361-366.

Amon, J. / Haertwig, J. / Ludwig, W. / Mueller, G.

Analysis of Types of Residual Dislocations in the VGF Growth of GaAs with extremely low Dislocation Density (EPD << 1000cm-2);

Journal of Crystal Growth, (1999) 367-373.

Backofen, R. / Kurz, M / Mueller, G.

Process Modelling of the Industrial VGF Crystal Growth Process Using the Software Package CrysVUn++;

Journal of Crystal Growth 211, (2000) 202-206

Birkmann, B./ Rasp, M./ Stenzenberger, J. / Mueller, G.

Growth of 3" and 4" gallium arsenide crystals by the vertical gradient freeze (VGF) method;

Journal of Crystal Growth, Volume 211, Issue 1, 2000, Pages 157-162

Bottcher, K. / Rudolph, P. / Neubert, M. / Kurz, M. / Pusztai, A. / Mueller, G.

Global temperature field simulation of the vapor pressure controlled Czochralski (VCZ) growth of 3"-4" gallium arsenide crystals;

Journal of Crystal Growth. vol.198-199, pt.1; March 1999; p.349-354

Buenger, Th. / Behr, D. / Eichler, St. / Flade, T. / Fliegel, W. / Jurisch, M. / Kleinwechter, A. / Kretzer, U. / Steinegger, Th. / Weinert, B.

Development of a vertical gradient freeze process for low EPD GaAs substrates;

Materials Science and Engineering B, Volume 80, Issues 1-3, 22 March 2001, Pages 5-9

Czarny, O. / Droll, P. / Ganaaoui, M. / Fischer, B. / Hainke, M. / Metzger, M. / Mueller, G. et al.

High performance computer codes and their application to optimize crystal growth processes III;

Hirschel, E. (Ed.), Numerical Flow Simulation III, Springer Verlag, Heidelberg (2003)

Demmel,J.W. / Gilbert, J.R. / Li, Xiaoye.S

An Asynchronous Parallel Supernodal Algorithm for Sparse Gaussian Elimination

SIAM J. Matrix Analysis and Applications, 20,4,915-952,1999

Derby, J. / Daoutidis, P. / Kwon, Y. / Pandy, A. / Sonda, P. / Vartak, B. / Yeckel, A. / Hainke, M. / Mueller, G.

High performance computing, multi scale models for crystal growth systems;

AHPCRC, Preprint 2001-017

Derby, J. / Daoutidis, P. / Kwon, Y. / Pandy, A. / Sonda, P. / Vartak, B. / Yeckel, A. / Hainke, M. / Mueller, G.

High performance computing, multi scale models for crystal growth systems;

High Performance Scientific and Engineering Computing (eds. M. Breuer, F. Durst, C. Zenger in Lecture Notes in Computational Science and Engineering), Springer, Heidelberg (2002) 185-201

Fischer, B.

Modellierung zeitabhaengiger Magnetfelder in Kristallzuechtungsanordnungen

PhD thesis Universitaet Erlangen Nuernberg, 2001

Frank, Ch. / Jacob, K. / Neubert, M / Rudolph, P. / Fainberg, J. / Mueller, G.

Temperature field simulation and correlation to the structural quality of semi-insulating GaAs crystals grown by the vapour pressure controlled Czochralski method (VCz);

Journal of Crystal Growth 213, (2000) 10-18

Grant, I. R. / Sahr, U.

Growth of InP and GaAs Substrate Crystals by the Vertical Gradient Freeze Method;

Conference Proceedings, 14th International Conference on Indium Phosphide and Related Materials (2002) 413-415

Gresho, P. M. / Derby, J. J.

A Finite Element Model for Induction Heating of a Metal Crucible;

Journal of Crystal Growth 85 (1987) 40-48

Hainke, M. / Friedrich, J. / Mueller, G.

Numerical Study of the Effects of Rotating Magnetic Fields during VGF Growth of 3" GaAs Crystals;

Proceedings of the 5th Int. Pamir Conference (2002) V-1

Hainke, M.

Computation of Convection and Alloy Solidification with the Software Package CrysMAS;

PhD thesis, University of Erlangen-Nuernberg (2004)

Hainke, M. / Jung, T. / Friedrich, J. / Fischer, B. / Metzger, M. / Mueller, G.

Equipment and Process Modelling of Industrial Crystal Growth Using the Finite Volume Codes CrysMAS and STHAMAS;

Progress in Industrial Mathematics (Eds. Anile, A.M.; Capasso, V.; Greco, A.), Springer Verlag, ISBN 3540425829 (2002), 218-222

Iuga, Maria

Study of the Influence of of Travelling Magnetic Fields on Melt Convection;

Diploma thesis, University of Erlangen-Nuernberg (2003)

Kastl, J.

Implementierung von Modellen fuer stationaere Magnetfelder in das Softwarepaket CrysMAS

Studies Work, University of Erlangen-Nuernberg (2004)

C. R. Kleijn

Chemical vapor deposition processes. In M. Meyyappan, editor, Computational modelling in semiconductor processing, chapter 4, pp. 97-230. Artech House, 1995

Kurz, M.

Development of CrysMAS. A Software System for numerical Modelling and Control of Industrial Crystal Growth Processes;

PhD thesis, University of Erlangen-Nuernberg (1998)

Kurz, M. / A. Pusztai/ Mueller, G.

Development of a new powerful computer code CrysVUn++ especially designed for fast simulation of bulk crystal growth processes; Journal of Crystal Growth 198/ 199 (1999) 101-106

Kurz, M. / Fainberg, J. / Friedrich, J. / Mueller, G.

Equipment and process modelling of industrial crystal growth using the finite volume codes CrysVUn++ and STHAMAS;

American Society of Mechanical Engineers, Pressure Vessels and Piping Division (Publication) PVP, Volume 397 (1999) 275-281

Kurz, M. / Mueller, G.

Control of Thermal Conditions during Crystal Growth by Inverse Modelling;

Journal of Crystal Growth, 208, (2000) 341-349

Kurz, M. / Pusztai A.

Presentation of a gentle discretization scheme for the numerical treatment of nonlinear heat conduction on unstructured Grids in finite volume technique ;

International Journal of Heat and Fluid Flow Vol. 8, No. 3, (1998) 304

Lambropoulos, J.C.

The isotropic assumption during the Czochralski growth of single semiconductors crystals

Journal of Crystal Growth 84 (1987) 349-358

Metzger, M. / Backofen, R.

Optimal temperature profiles for annealing of GaAs-Crystals;

Journal of Crystal Growth 220 (2000) 6-15

Metzger, M.

Optimal Control of Crystal Growth;

Journal of Crystal Growth, Volume 230, Issues 1-2, August 2001, Pages 210-216

Miller, W. / Schroeder, W.

Numerical modeling at the IKZ: an overview and outlook;

Journal of Crystal Growth, Volume 230, Issues 1-2, August 2001, Pages 1-9

Molchanov, A. / Hilburger, U. / Friedrich, J. / Finkbeiner, M. / Wehrhan, G. / Mueller, G.

Experimental verification of the numerical model for a CaF2 crystal growth process;

Crystal Research and Technology 37 (2002), 77-82

Mueller, G.

Experimental analysis and modeling of melt growth processes;

Journal of Crystal Growth 237-239 (2002)1628-1637

Mueller, G. / Birkmann, B.

Optimization of VGF-growth of GaAs crystals by the aid of numerical modelling;

Journal of Crystal Growth, 237-239 (2002) 1745-1751

Mueller, G. / Fischer, B.

Optimization of Melt Growth Processes by Experimental Analysis and Computer Modeling;

Advances in Crystal Growth Research, eds. K. Sato, Y. Furukawa, K. Nakajima, Elsevier, Amsterdam, (2001) 167-190

Mueller, G. / Friedrich, J.

Juwelen fuer Innovation;

Schott Info 100 (2002) 12-14

Mueller, G. / Friedrich, J.

Zuechtung von Einkristallen - eine Herausforderung fuer Wissenschaft und Technik; Nachrichten des Fraunhofer-Verbunds Mikroelektronik 8 (2002) 2

Mueller, G. / Berwian, P. / Buhrig, E. / Weinert, B.

GaAs Substrate for high power laser diodes;

in: R. Diehl (Ed.), High Power Diode Lasers, Topics;

Applied Physics 78, Springer (2000), 121-171

Neubert, M. / Rudolph, P.

Growth of semi-insulating GaAs crystals in low temperature gradients by using the Vapour Pressure Controlled Czochralski Method (VCz); Progress in Crystal Growth and Characterization of Materials, Volume 43, Issues 2-3, 2001, Pages 119-185

Paetzold, O. / Grants, I. / Wunderwald, U. / Jenkner, K. / Croell, A. / Gerbeth, G.

Vertical gradient freeze growth of GaAs with a rotating magnetic field;

Journal of Crystal Growth, Volume 245, Issues 3-4, November 2002, Pages 237-246

Rasp, M. / Birkmann, B. / Mueller, G.

Anomalous interface shapes in the seed well during vertical gradient freeze growth of Si-doped GaAs;

Journal of Crystal Growth 222, (2001) 88

Rehse, U./ Miller, W. / Frank, Ch. / Rudolph, P. / Neubert, M.

A numerical investigation of the effects of iso- and counter-rotation on the shape of the VCz growth interface;

Journal of Crystal Growth, Volume 230, Issues 1-2, August 2001, Pages 143-147

Roplekar,JR / Dantzig, J.

A study of solidification with a rotating magnetic field

- International Journal of Cast Metals Research(UK), 2001

Sahr, U. / Grant, I. / Mueller, G.

Growth of S-doped 2" InP-Crystals by the Vertical Gradient Freeze Technique;

13th International Conference on Indium Phosphide and Related Materials, Nara, Japan, (2001)

Stone, H. L.

Iterative solver of implicit approximations of multidimensional partial differential equations.

SIAM J. Num. Anal., 5:530-558 (1968)

Sahr, U. / Mueller, G.

Growth of InP Substrate Crystals by the Vertical Gradient Freeze Technique;

Conference Proceedings, 12th Semiconducting and Insulating Materials Conference (2002)

Stoecker, C. / Ratke, L.

Monotectic composite growth with fluid flow; Journal of Crystal Growth, Volume 212, Issues 1-2, 2000, Pages 324-333

Stry, Y. / Hainke, M. / Jung, T.

Comparison of linear and quadratic shape functions for a hybrid control-volume finite element method;

Int. Journal of Numerical Methods for Heat & Fluid Flow, Vol. 12(8) (2002) 1009-1031

Voigt, A. / Metzger, M.

Numerical Simulation and Control of Industrial Crystal Growth by the Czochralski and Vertical Gradient Freeze Method;

caesar preprint 2000-2, (2000)