1. E. D. Bourret, J. J. Derby, R. A. Brown, and A. F. Witt, "Segregation effects during growth of pseudo-binary systems with large liquidus-solidus separation," Acta Astronautica 11(3-4), 163-171 (1984).
2. E. D. Bourret, J. J. Derby, and R. A. Brown, "Dynamics of Bridgman-Stockbarger growth of non-dilute binary alloys," J. Crystal Growth 71, 587-596 (1985).
3. J.J. Derby, R. A. Brown, F. T. Geyling, A. S. Jordan, and G. A. Nikolakopoulou, "Finite element. analysis of a thermal-capillary model for liquid encapsulated Czochralski growth," J. Electrochem. Soc. 132(2), 470-482 (1985).
4. J. J. Derby and R. A. Brown, "A fully implicit method for simulation of the one-dimensional solidification of a binary alloy," Chem. Eng. Sci. 41(1), 37-46 (1986).
5. J. J. Derby and R. A. Brown, "Thermal-capillary ana.lysis of Czochralski and liquid enca.psulated Czochralski crystal growth I. Simulation," J. Crystal Growth 74, 605-624 (1986).
6. J. J. Derby and R. A. Brown, "Thermal-capillary analysis of Czochralski and liquid encapsulated Czochralski crystal growth II. Processing strategies," J. Crystal Growth 75, 227-240 (1986).
7. J.J. Derby and R. A. Brown, "On the dynamics of Czochralski crystal growth," J. Cr.ystal Growth 83, 137- 151 (1987).
8. L. J. Atherton, J. J. Derby, and R. A. Brown, "Radiative heat exchange in Czochralski crysta.l growth," J. Crystal Growth 84, 57-78 (1987).
9. P. M. Gresho and J. J. Derby, "A finite element model for induction heating of a metal crucible," J. Crystal Growth 85, 40-48 (1987).
10. J. J. Derby, L. J. Atherton, P. D. Thoma.s, a.nd R. A. Brown, "Finite element methods for analysis of the dynamics and control of Czochralski crystal growth," J. Scientific Computing 2(4), 297-343 (1987).
11. J. J. Derby and R. A. Brown, "On the quasi-steady-state assumption in modelling Czochralski crystal growth," J. Crystal Growth 87, 251-260 (1988).
12. P. A. Sackinger, R. A. Brown, and J. J. Derby, "A finite element method for analysis of fluid flow, heat transfer and free interfaces in Czochralski crystal growth," Intern. J. Numer. Meths. Fluids 9(4), 453-492 (1989)
13. P. D. Thomas, J. J. Derby, L. J. Atherton, R. A. Brown, and M. J. Wargo, "Dynamics of liquid-encapsulated Czochralski growth of gallium arsenide: Matching model to experiment," J. Crystal Growth 96, 135-152 (1989).
14. J. J. Derby, L. J. Atherton, and P. M. Gresho, "An integrated process model for the growth of oxide crystals by the Czochralski method," J. Crystal Growth 97, 792-826 (1989).
15. S. Brandon and J. J. Derby, "Internal radiative transport in the vertical Bridgman growth of semitransparent crystals," J. Crystal Growth 110, 481-500 (1991).
16. J. J. Derby and Q. Xiao, "A hydrodynamic thermal-capillary model for Czochralski crystal growth: Effects of crystal rotation," Proceedings of the 28th National Heat Transfer Conference, Minneapolis, MN (July 28-31, 1991); ASME 91-HT-38.
17. S. Brandon and J. J. Derby, "A finite element method for internal radiative heat transfer and its application to analysis of the growth of semitransparent crystals," in Fundamentals of Radiation Heat Transfer, HTD-Vol. 160, ed. by W. A. Fiveland, A. L. Crosbie, A. M. Smith, and T. F. Smith, ASME. New York, 1-16 (1991).
18. J. J. Derby and Q. Xiao, "Some effects of crystal rotation on large-scale Czochralski oxide growth: Analysis via a hydrodynamic thermal-capillary model," J. Crystal Growth 113, 575-586 (1991).
19. S. Brandon and J. J. Derby, "Heat transfer in vertical Bridgman growth of oxides: Effects of conduction, convection, and internal radiation," J. Crystal Growth 121, 473-494 (1992).
20. S. Brandon and J. J. Derby, "A finite element method for conduction, internal radiation, and solidification in a finite axisymmetric enclosure," Int. J. Num. Meth. Heat Fluid Flow 2, 299-333 (1992).
21. Q. Xiao and J. J. Derby, "The role of internal radiation and melt convection in Czochra1ski oxide growth: deep interfaces, interface inversion, and spiraling," J. Crystal Growth 128, 188-194 (1993).
22. Q. Xiao and J. J. Derby, "Bulk flow versus thermal-capillary models for Czochralski growth of semiconductors," J. Crystal Growth 129, 593-609 (1993).
23. S. Brandon, J. J. Derby, L. J. Atherton, D. H. Roberts, and R. L. Vital, ''Three-dimensional heat transfer effects during the growth of LiCaAIF6 in a modified Bridgman furnace," J. Crystal Growth 132, 261-279 (1993).
24. A. G. Salinger, S. Brandon, R. Aris, and J. J. Derby, "Buoyancy-driven flows of a radiatively participating fluid in a vertical cylinder heated from below," Proc. R. Soc. Lond. A 442, 313-341 (1993).
25. S. Kuppurao and J. J. Derby, "Finite element formulations for accurate calculation of radiant heat transfer in diffuse-gray enclosures," Numer. Heat Transfer, Part B: Fundamentals 24, 431-454 (1993).
26. A. G. Salinger, S. Brandon, R.. Aris, and J. J. Derby, "Steady-state flow transitions in the radiative Rayleigh- Benard problem: Visualizing a bifurcation diagram," Intern. Video J. Eng. Res. 3, 97-109 (1993)
27. J. J. Derby, S. Brandon, A. G. Salinger, and Q. Xiao, "Large-scale numerical analysis of materials processing systems: High-temperature crystal growth and molten glass flows," Comput. Methods Appl. Mech. Engrg. 112, 69-89 (1994).
28. Q. Xiao and J. J. Derby, "Heat transfer and interface inversion during the Czochralski growth of yttrium aluminum garnet and gadolinium gallium garnet," J. Crystal Growth 139, 147-157 (1994).
29. A. G. Salinger, R. Aris, and J. J. Derby, "Modeling the spontaneous ignition of coal stockpiles," AIChE J. 40(6), 991-1004 (1994).
30. K. G. Ayappa, S. Brandon, J. J. Derby, H. T. Davis, and E. A. Davis, "Microwave driven convection in a square cavity," AlChE J. 40(7), 1268-1272 (1994).
31. A. G. Salinger, R. Aris, and J. J. Derby, "Finite element formulations for large-scale, coupled flows in adjacent porous and open fluid domains," Intern. J. Numer. Meths. Fluids 18, 1185-1209 (1994).
32. J. I. Martinez-Herrera and J. J. Derby, "Analysis of capillary-driven viscous flows during the sintering of ceramic powders," AIChE J. 40(11), 1794-1803 (1994).
33. A. G. Salinger, Q. Xiao, Y. Zhou, and J. J. Derby, "Massively parallel finite element computations of three- dimensional, time-dependent, incompressible flows in materials processing systems," Comput. Methods Appl. Mech. Engrg. 119, 139-156 (1994).
34. J. I. Martinez-Herrera and J. J. Derby, "Viscous sintering of spherical particles via finite element analysis," J. Am. Ceram. Soc. 78[3], 645-649 (1995).
35. A. Yeckel, A. G. Salinger, and J. J. Derby, "Theoretical analysis and design considerations for Hoatzone refinement of electronic grade silicon sheets," J. Crystal Growth 152, 51-64 (1995). (abstract)
36. Q. Xiao and J. J. Derby, "Three-dimensional melt flows in Czochralski oxide growth: High resolution, massively parallel, finite element computations," J. Crystal Growth 152, l69-181 (1995).
37. Y. Zhou and J. J. Derby, "The cathode design problem in electrochemical machining," Chem. Eng. Sci. 50(17), 2679-2689 (1995).
38. S. Kuppurao, S. Brandon, and J. J. Derby, "Modeling the vertical Bridgman growth of cadmium zinc telluride. I. Quasi-steady analysis of heat transfer and convection," J. Crystal Growth 155, 93-102 (1995).
39. S. Kuppurao, S. Brandon, and J. J. Derby, "Modeling the vertical Bridgman growth of cadmium zinc telluride. II. Transient analysis of zinc segregation," J. Crystal Growth 155, 103-111 (1995).
40. Q. Xiao, A. G. Salinger, Y. Zhou, and J. J. Derby, "Massively parallel finite element analysis of coupled, incompressible flows: A benchmark computation of baroclinic annulus waves," Intern. J. Numer. Meths. Fluids 21, 1007-1014 (1995).
41. S. Kuppurao, I. Tantra, and J. J. Derby, "Parallel computation of radiation view factors between two arbitrarily oriented surfaces," Comm. Numer. Meth. Engng. 12, 43-50 (1996).
42. S. Kuppurao, S. Brandon, and J. J. Derby, "Analysis of interrupted growth strategies for cadmium telluride in an unseeded vertical Bridgman system," J. Crystal Growth 158, 459-470 (1996).
43. Q. Xiao, S. Kuppurao, A. Yeckel, and J. J. Derby, "On the effects of ampoule tilting cluring vertical Bridgman growth: Three-dimensional computations via a massively parallel, finite element method,'' J. Crystal Growth 167, 292-304 (1996).
44. A. Yeckel, J. W. Smith, and J. J. Derby, "Parallel finite element calculation of flow in a three-dimensional lid-driven cavity, using the CM-5 and T3D," Intern. J. Numer. Meths. Fluids 24, 1-13 (1997). (abstract)
45. S. Kuppurao and J. J. Derby, "Designing thermal environments to promote convex interface shapes during the vertical Bridgman growth of cadmiun zinc telluride," J. Crystal Growth 172, 350-360 (1997).
46. K. Edwards and J. J. Derby, "Understanding horizontal Bridgman shelf growth of cadmium telluride and cadmium zinc telluride: I. Heat and momentum transfer," J. Crystal Growth 179, 120-132 (1997).
47. K. Edwards and J. J. Derby, "Understanding horizontal Bridgman shelf growth of cadmium telluride and cadmium zinc telluride: II. Thermoelastic stresses," J. Crystal Growth 179, 133-143 (1997).
48. A. Yeckel and J. J. Derby, "Parallel computation of incompressible flows in materials processing: Numerical experiments in diagonal preconditioning," Parallel Computing 23, 1379-1400 (1997). (abstract)
49. Y. Zhou and J. J. Derby, "Three-dimensional computations of solution hydrodynamics during the growth of potassium dihydrogen phosphate: I. Spin up and steady rotation," J. Crystal Growth 180, 497-509 (1997).
50. J. J. Derby, S. Brandon, and A. G. Salinger, "On the diffusion and P1 approximations for modeling buoyant flow of an optically thick fluid," Intern. J. Heat Mass Transfer 41(11), 1405-1415 (1998).
51.
52.
53. A. Yeckel, Y. Zhou, M. Dennis, and J. J. Derby, "Three-dimensional computations of solution hydrodynamics during the growth of potassium dihydrogen phosphate: II. Spin down," J . Crystal Growth 191, 206-224 (1998). (abstract)
54. A. Yeckel and J. J. Derby, "On setting a pressure datum when computing incompressible flows," Int. J. Numer. Methods Fluids 29, 19-34 (1999). (abstract)
55.
56.
57.
58.
59. A. Yeckel, F. P. Doty, and J. J. Derby, "Effect of steady crucible rotation on segregation in high-pressure vertical Bridgman growth of cadmium zinc telluride," J. Crystal Growth, accepted for publication (1999). (abstract)
60.
61. J. J. Derby, Y.-I. Kwon, J. C. Rojo, B. Vartak, and A. Yeckel , "Finite element modeling of three-dimensional fluid dynamics in crystal growth systems," Int. J. Comput. Fluid Dyn., submitted (1999).
62.
63.
64.
65.
66. A. Yeckel and J. J. Derby, "Effect of accelerated crucible rotation on melt composition in high-pressure vertical Bridgman growth of cadmium zinc telluride," J. Crystal Growth, submitted (1999). (abstract)
67. B. Vartak, Y.-I. Kwon, A. Yeckel, and J. J. Derby, "Fluid flow and mass transfer during the solution growth of potassium titanyl phosphate (KTP): I. Steady rotation," J. Crystal Growth, submitted (1999).
Invited Publications and Book Chapters
1. J. J. Derby, "Theoretical modeling of Czochralski crystal growth," AIRS Bulletin XIII(10), 29-35 (1988).
2. J. J. Derby, S. Brandon, A. G. Salinger, and Q. Xiao, "Large-scale numerical analysis of materials processing systems: High-temperature crystal growth and molten glass flows," Comput. Methods Appl. Mech. Engrg. 112, 69-89 (1994).
3. Q. Xiao, A. G. Salinger, Y. Zhou, and J. J. Derby, "Massively Parallel Finite Element Ana.lysis of Large-Scale Crystal Growth Processes: Rotating a.nd Coupled Flows," Extended Abstracts of the 2nd Japan-U.S. Symposium on Finite Element Methods in Large-Scale Computational Fluid Dynamics, Chuo University, Tokyo, Japan (March 14-16, 1994).
4. A. G. Salinger, Q. Xiao, Y. Zhou, and J. J. Derby, "Massively parallel finite element computations of three-dimensional, time-dependent, incompressible flows in materials processing systems," Comput. Methods Appl. Mech. Engrg. 119, 139-156 (1994).
5. J. J. Derby, "Macroscopic transport processes during the growth of single crystals from the melt," in: Science and Technology of Crystal Growth, Eds. J.P. van der Eerden and O.S.L. Bruinsma (Kluwer Academic Publishers, Dordecht, The Netherlands, 1995) pp. 97-110.
6. J. Derby, S. Kuppurao, Q. Xiao, A. Yeckel, and Y. Zhou, "Large-scale numerical modeling of bulk crystal growth from the melt and solution," in: Science and Technology of Crystal Growth, Eds. J.P. van der Eerden and O.S.L. Bruinsma (Kluwer Academic Publishers, Dordecht, The Netherlands, 1995) pp. 111-122.
7. Q. Xiao, A. G. Salinger, Y. Zhou, and J. J. Derby, "Massively parallel finite element analysis of coupled, incompressible flows: A benchmark computation of baroclinic annulus waves," Intern. J. Numer. Meths. Fluids 21, 1007-1014 (1995).
8. J. J. Derby, "An overview of convection during the growth of single crystals from the melt," in: Single-Crystal Growth: Principles and Current Practices, ed. by L. Boatner, E.D. Bourret, and K. Jackson, AIP Press, American Institute for Physics, in press (1996).
9. A. Yeckel, J. W. Smith, and J. J. Derby, "Parallel finite element calculation of flow in a three-dimensional lid-driven cavity, using the CM-5 and T3D," Intern. J. Numer. Meths. Fluids 24, 1-13 (1997). (abstract)
10. A. Yeckel and J. J. Derby, "Parallel computation of incompressible flows in materials processing: Numerical experiments in diagonal preconditioning," Parallel Computing 23, 1379-1400 (1997). (abstract)
11. Y. Zhou and J. J. Derby, "Three-dimensional computations of solution hydrodynamics during the growth of potassium dihydrogen phosphate: I. Spin up and steady rotation," J. Crystal Growth 180, 497-509 (1997).
12. J. J. Derby, "Modeling transient and three-dimensional fluid flow and transport phenomena during the growth of electronic crystals," Extended Abstracts of ICES '97, the International Conference On Computational Engineering Science, San Jose, Costa Rica (May 4-9, 1997).
13. V.F. de Almeida. and J. J. Derby, "Experiments with a robust parallel nonlinear algorithm for analysis of 3-D equations of incompressible steady-state flows," Extended Abstracts of ICES '97, the International Conference on Computational Engineering Science. San Jose. Costa Rica (May 4-9, 1997).
14. A. Yeckel, Y.-I. Kwon, and J. J. Derby, "Parallel computation of three-dimensional, time-dependent hydrodynamics during solution crystal growth," Extended Abstracts of ICES '97, the International Conference on Computational Engineering Science. San Jose Costa Rica (May 4-9, 1997). (abstract)
Other Publications
1. J. J. Derby and A. Tugendhat, "The 1980 WISE progra.m from the student perspective 1981 ASEE Annual Conference Proceedings, Los Angeles, CA (1981).
2. J. E. Scott and J. J. Derby, "Thin film coal liquid evaporation ORNL/MIT 357 Oalk Ridge National Laboratory, Oak Ridge, TN, May (1983).
3. B. E. Thompson, J. J. Derby, and E. H. Stalzer, "Vapor-liquid equilibrium of the Mg(NO3)2-HNO3-H2O system," ORNL/MIT 360, Oak Ridge National Laboratory, Oalk Ridge, TN, June (1983)
4. J. J. Derby and R. A. Brown, "Therma1-capillary model for Czochralski growth of semiconductor materials," Proceedings of the Flat-Plate Solar Array Project Workshop on Crystal Growth of High Efficiency Silicon Solar Cells, DOE/JPL-10212-109, 195-214 (1985).
5. R. A. Brown, J. J. Derby, and P. M. Adorna.to, "Modeling of transport. processes in melt crystal growth," Proceedings of the First International Conference on the Processing of Electronic Mlaterials, AIChE, Santa Barbara, CA, February 23-28 (1987).
6. P. M. Gresho and J. J. Derby, "Solution of the time-harmonic semi-Maxwell equat.ions for induction heating using FIDAP," UCRL-97322, Lawrence Livermore National Laboratory, Livermore, CA, November (1987).
7. R. A. Brown, P. A. Sackinger, P. D. Thomas, J. J. Derby, and L. J. Atherton, "Application of large-scale simulation to intelligent materials processing: Modelling of Czochralski growt.h of single crystals," in Interdisciplinary Issues in Materials Processing and Manufacturing, Volume 1, ed. by S. K. Samanta, R. Komanduri, R. McMeekillg, M. M. Chen and A. Teng, ASME, New York 331-348 (1987).
8. J. J. Derby, "Theoretical modeling of Czochralski crystal growth," MSI Research Bulletin 8(3), 8-9 (Spring 1992).
9. J. J. Derby, S. Brandoll, and A. G. Salinger, "Computer-aided analyses of high-temperature materials processing: Internal radiation and convection in crystal growth and molten glass flows," Proceedings of the 1992 AIChE Summer National Meeting, Minneapolis, MN (August 9-12, 1992).
10. J. J. Derby, "Massively parallel finite element analysis of materials manufacturing: Crystal growth processes," AHPCRC Bulletin 4(2), 11-13 (Spring 1994).
11. P.W. Norton, J.P. Tower, S.P. Tobin, M. Kestigiall, A.B. Bollong, A. Socha, C.K. Ard, B.E. Dean, H.F. Schaake, P.-K. Liao, H.N.G. Wadley, J. Derby, "Progress in the manufacturing of CdZnTe substrates," Meeting of the IRIS Specialty Group on Infrared Materials, Boulder, CO (August 1994).
12. J. J. Derby, Review of Numerical Methods for Problems with Moving Fronts, by B.A. Finlayson, Ravenna Park Publishing, Seattle, WA, 1992, in: AIChE J. 41(10), 2342-2343 (1995).
Invited Presentations
1. "Heat Transfer, Stability, and Dynamics of the Czochralski and Liquid Encapsulated Czochralski Processes," Department of Chemical Engineering, University of Texas, Austin, TX, Februarv 1986.
2. "Heat Transfer, Stability, and Dynamics of the Czochralski and Liquid Encapsulated Czochralski Processes," Exxon Production Research Company, Houston, TX, February 1986.
3. "Heat Transfer, Stability, and Dynamics of the Czochralski and Liquid Encapsulated Czochralski Processes," Chevron Oil Field Research Company, La Habra, CA, February 1986.
4. "Heat Transfer, Stability, and Dynamics of the Czochralski and Liquid Encapsulated Czochralski Processes," Department of Chemical Engineering, University of Illinois, Urballa, IL, March 1986.
. "Heat Transfer, Stability, and Dynamics of the Czochralski and Liquid Encapslllated Czochralski Processes," IBM, East Fishkill Facility, NY, March 1986.
6. "Heat Transfer, Stability, and Dynamics of the Czochralski and Liquid Encapsulated Czochralski Processes," Department of Chemical Engineering, University of Michigan, Ann Arbor, MI, March 1986.
7. "Heat Transfer, Stability, and Dynamics of the Czochralski and Liquid Encapsulated Czochralski Processes," Lawrence Livermore National Laboratory, Livermore, CA, April 1986.
8. "Finite Element Analysis of Czochralski Growth of Semiconductor and Oxide Crystals," Departmental Seminar, Department of Chemical Engineering, University of Califorllia at Davis, Davis, CA, November 2, 1987.
9. "An Integrated Process Model for the Czochralski Growth of Oxide Crystals," Department of Chemical Engineering, Purdue University, West Lafayette, IN, Februa.ry 15, 1988.
10. "An Integrated Process Model for the Czochralski Growth of Oxide Crystals," Department of Chemical Engineering and Materials Science, University of Minnesota, Minneapolis, MN, Februa.ry 16, 1988.
11. "Theoretical Modeling of Czochralski Crystal Growth," Gordon Research Conference on Crystal Growth, New Hampshire, Summer 1988.
12. "Analysis of Czochralski Growth of Oxide Crystals," GE Seminar Series, Department of Chemical Engineering, University of Massachusetts, Amherst, MA, November 1988.
13. "Navier-Stokes Dynamics and Reacting and Convective Flows," (with G. Sell), DARPA Defense Sciences Summer Conference, La Jolla, CA, July 1989.
14. "Modeling Czochralski Crystal Growth Processes," Army Research Office, Triangle Park, NC, September 13, 1989.
15. "Analysis of an inductively-heated Czochralski crystal growth process," Departmental Seminar, School of Chemical Engineering, Cornell University, Ithaca, NY, September 26, 1989.
16. "A Finite Element Analysis of the Czochralski Growth of Oxide Crystals," Departmental Seminar, Department of Aerospace Engineering and Mechanics, University of Minnesota, October 13, 1989.
17. "Dynamics in Materials Processing: Outstanding Problems in Melt Crystal Growth," IMA Workshop on Patterns and Dyna.mics in Reactive Media, University of Minnesota, October 20, 1989.
18. "Chemical Engineering and Materials Processing: Analysis of Melt Crystal Growth Systems. " Departmental Seminar, Chemistry Department, St. John's University, Collegeville, MN, April 26, 1990.
19. "Theoretical Analyses of Melt Growth of Oxide Crysta.ls," Corporate Research and Development, E.I. Du Pont De Nemours & Company, Wilmington, DE, December 18, 1990.
20. "Coupled Transport and Reaction in Chemical Engineering and Materials Processing Systems: Present and Possible Future Methodologies," U.S. Army Ballistic Research Laboratory, Aberdeen Proving Ground, MD, December 19, 1990.
21. "On Modeling Three-Dimensional Flow Transitions in Czochralski Crystal Growth," AHPCRC Seminar on Dynamics and Flow Systems, Minneapolis, MN, January 23, 1990.
22. "Macroscopic interactions of viscous flow, heat transfer, and solidification interfaces in melt crystal growth systems: Oxides and fluorides," IMA Workshop on Free Boundaries in Viscous Flows, University of Minnesota, March 11-15, 1991.
23. "Some myths and misconceptions about attending graduate school," University of Minnesota IT Dinner for Juniors, Hubert H. Humphrey Institute, April 3, 1991.
24. "Computer-Aided Analyses of Internal Radiation and Convection: Applications to Crystal Growth and Glass Processing," Laser Division Seminar Series, Lawrence Livermore National Laboratory, Livermore, CA, September 17, 1991.
25. "Computer-Aided Analyses of Internal Radiation, Conduction, and Convection in Crystal Growth Processes," James and Catherine Patten Seminar Series, Department of Chemical Engineering, University of Colorado at Boulder, Boulder, CO, September 19, 1991.
26. "Convection Effects in the Growth of Single Crystals," ISSCG-8, The Eighth International Summer School on Crystal Growth, Palm Springs, CA, August 9-15, 1992.
27. "Finite Element Methods for CFD in Chemical Engineering: Materials Processing Applications,'' US-Japan Symposium on Finite Element Methods in Large-Scale Computational Fluid Dynamics, Minnesota Supercomputer Institute and Army High Performance Computing Research Center Minneapolis, MN, October 12-14, 1992.
28. "A Preview of Research Results in Crystal Growth, Radiation Heat Transfer, and Ceramics Sintering," Coating Process Fundamentals/Capillary Hydrodynamics/Allied Research Seminar Series, Department of Chemical Engineering and Materials Science, University of Minnesota, Minneapolis, MN, October 19, 1992.
29. "A Continuum Finite Element Model for Sintering," (presented by J.I. Martínez-Herrera), the 45th Pacific Coast Regional Meeting of The American Ceramic Society, San Francisco, CA, November 1-6, 1992.
30. "Theoretical analyses of the melt growth of oxide crystals," Departmental Seminar, Graduate School of Science and Engineering, Waseda University, Tokyo, Japan, December 15, 1992.
31. "On modeling fluid dynamics in materials processing using finite element methods," ICES '92, International Conference on Computational Engineering Science, Hong Kong, December 17-22, 1992.
32. "Large-scale computational modeling of bulk crystal growth processes," 1993 Winter Gordon Research Conference on Crystal Growth, Casa Sirena Marina Resort, Oxnard, CA, Marcll 15-19, 1993.
33. "Computer-Aided Analyses of High-Temperature Materials Processing Systems: Crystal Growth and Ceramics Sintering," Departmental Seminar Series, Department of Chemical Engineering, University of Wisconsin, Madison, WI, April 15, 1993.
34. "Finite element analysis of the growth of semitransparent crystals via the Bridgman method,'' Workshop on Control of Bridgman Growth of CdZnTe Crystals, School of Engineering & Applied Science, University of Virginia, Charlottesville, VA, June 24-25, 1993.
35. "On modeling flows in materials processing via high performance Computing: I. Viscous sintering II. Massively parallel finite element computations," Transport Phenomena and Materials Processing Seminar Series, Department of Chemical Engineering, Massachusetts Institute of Technology, Cambridge, MA, July 23, 1993.
36. "Finite Element Analysis of the Growth of Large, Single Crystals of Refractory Oxides," ARO Research/Technology Transfer Workshops in High Performance Computing: Advanced Manufacturing, TARDEC..Warren, MI, August 30-31, 1993.
37. "Computer-Aided Analyses of High-Temperature Materials Processing Systems: Crystal Growth and Ceramics Sintering," Chemical Engineering Program Seminar Series, Department of Applied Mechanics and Engineering Sciences, University of California at San Diego, La Jolla, CA, September 15, 1993.
38. "Finite Element Analysis of the Growth of Large, Single Crystals of Semitransparent Materials," Infrared Devices Laboratory, Central Research Laboratories, Texas Instruments, Dallas TX,.September 16, 1993.
39. "Computer-Aided Analyses of High-Temperature Materials Processing Systems: Crystal Growth and Ceramics Sintering," Departmental Seminar Series, Department of Chemical Engineering, University of California at Berkeley, Berkeley, CA, September 20, 1993.
40. "Computer-Aided Analyses of Ceramics Sintering and Solution Crystal Growth," Laser Division Seminar Series, Lawrence Livermore National Laboratory, Livermore, CA September 21, 1993.
41. "An Overview of Research Topics related to High-Performance Computing and Environmental Science: Coal Stockpile Ignition, Combustion, Porous Media., and Deep-Well Oxidation," ARO Workshop on HPC Issues in Environmental Sciences, U.S. Army Corps of Engineers Waterways Experiment Station, Vicksburg, MS, September 28-29, 1993.
42. "Parallel finite element computations of melt crystal growth flows," Symposium on Parallel Element Computations, Minnesota Supercomputer Institute, Minneapolis, MN, October 25-27, 1993.
43. "Analysis of Flows in High-Temperature Crystal Growth Processes via Finite Element Methods," 2nd Japan-US Symposium on Finite Element Methods in Large-Scale Computational Fluid Dynamics, Chuo University, Tokyo, Japan, March 14-16, 1994.
44. "Massively Parallel Finite Element Analyses of Rotational and Buoyant Flows in Crystal Growth Systems," Institute of Industrial Science, University of Tokyo, Tokyo Japan, March 17, 1994.
45. "Panel discussion on the future of crystal growth research," 1994 Gordon Research Conference on Crystal Growth, Proctor Academy, Andover, NH, June 27-July 2, 1994.
46. "Computer-Aided Analyses of High-Temperature Materials Processing Systems: Crystal Growth and Ceramics Sintering," Sandia National Laboratories, July 25, 1994.
47. "Massively Parallel Finite Element Calculations of Coupled Incompressible Flows and their use for Materials Processing Research," AHPCRC-ARL Joint Conference on Computational Fluid Mechanics and Structural Mechanics, Army Research Laboratory, Aberdeen, ND, December 14-16, 1994.
48. "Modeling the Growth of Bulk Single Crystals via High Performance Computing," Departmental Seminar Series, Department of Chemical Engineering, University of California at Los Angeles, Los Angeles, CA, March 10, 1995.
49. "Modeling the Growth of Bulk Single Crystals via High Performance Computing," The American Ceramic Society 1995 Annual Meeting and Exposition, Cincinnati, OH, April 30-May 4, 1995.
50. "Computational materials research at the University of Minnesota and the Army HPC Research Center," Ceramics and Metals Division, U.S Army Research Laboratory-Materials Directorate. Watertown, MA, May 31, 1995.
51. "Macroscopic transport processes during the growth of single crystals from the melt," ISSCG-IX. The Ninth International Summer School on Crystal Growth, Papendal, Arnhem, The Netherlands, June 11-16, 1995.
52. "Large-scale numerical modeling of bulk crystal growth from the melt and solution," ISSCG-IX. The Ninth International Summer School on Crystal Growth, Papendal, Arnhem, The Netherlands. June 11-16, 1995.
53. "Modeling the growth of bulk single crystals via high performance computing," Departmental Seminar, Centre d'Ingenierie des Systemes, d'Automatique et de Mécanique Appliquée, Université Catholique de Louvain, Louvain-la-Neuve, Belgium, June 16, 1995.
54. "Modeling the growth of CdTe and CdZnTe bulk single crystals via high performance computing, " DIGIRAD, San Diego, CA, December 18, 1995.
55. "HPC analysis of materials processing," AHPCRC Infrastructure Support. Scientists Workshop, U.S. Army Research Laboratory, Aberdeen Proving Ground, ND, February 26-27 1996.
56. "Analysis of materials processing via high performance computing: From food processing to tile growth of photo-electronic crystals," U.S. Army Research, Development and Engineerillg Center, Natick, MA, February 28, 1996.
57. "Analysis of materials processing via high performance computing: From photo-electronic crystals to food," Department of Engineering, Clark Atlanta, University, Atlanta, GA, March 21, 1996.
58. "Modeling the growth of bulk single crystals via high performance computing," Third US-Japan Symposium on Finite Element Methods in Large-Scale Computational Fhlid Dynamics, Millllesota. Supercomputer Institute and Army High Performance Colllplltillg Research Center, I\Iinllea.polis, MN, April 1-3, 1996.
59. "An Overview of Continuum Transport Phenomna and the Growth of Large, Single Crystals," Centre d'Ingenierie des Systemes, d'Automatique et de Mécanique Appliquée, Université Catholique de Louvain, Louvain-la-Neuve, Belgium, April 30, 1996.
60. "Modeling the Melt Growth of Oxide Single Crystals: Understanding the Effects of Internal Radiation and Convection," Centre d'Ingellierie des Systemes, d'Automatiqlle et de Mécanique Appliquée, Université Catholique de Louvain, Louvain-la-Neuve, Belgium, May 8, 1996.
61. "Modeling the Growth of Bulk Single Crystals via High Performance Computing," Department of Physics of Materials, Universidad Autónoma de Madrid, Madrid, Spain, May 17, 1996.
62. "Modeling the Growth of Bulk Single Crystals via High Performance Computing," Laboratoire d'Etude de la Solidification, Centre d'Etude Nucléaire de Grenoble, Grenoble, France, May 14, 1996.
63. "Fundamentals of Radiation Heat Transfer 1," Centre d'Ingellierie des Systémes, d'Automatique et de Mécanique Appliquée, Université Catholique de Louvain, Louvain-la-Neuve, Belgium, May 23, 1996.
64. "Fundamentals of Radiation Hea.t Transfer 11," Centre d'Ingellierie des Systémes, d'Automatique et de Mécanique Appliquée, Université Catholique de Louvain, Louvain-la-Neuve, Belgium, May 29, 1996.
65. "Toward the Development of Massively Parallel Finite Element Algorithms and their Application to Problems in Materials Processing: From Photoelectronic Crystals to Food," Centre d'Ingénierie des Systémes, d'Automatique et de Mécanique Appliquée, Université Catholique de Louvain, Louvain-la-Neuve, Belgium, June 5, 1996.
66. "Modeling the Bridgman Growth of Cadmium Zinc Telluride: Toward Understanding Process Yield and Crystal Quality," Centre d'Ingénierie des Systémes, d'Automatique et de Mécanique Appliquée, Université Catholique de Louvain, Louvain-la-Neuve, Belgium, July 2, 1996.
67. "Useful Techniques (some new, some old) for Large-Scale Numerical Analysis of Continuum Transport Phenomena," Centre d'Ingénierie des Systémes, d'Automatique et de Mécanique Appliquée, Université Catholique de Louvain, Louvain-la-Neuve, Belgium, July 5, 1996.
68. "Finite Element Analysis of Ceramics Sintering Processes," Centre d'Ingénierie des Systémes, d'Automatique et de Mécanique Appliquée, Université Catholique de Louvain, Louvain-la-Neuve, Belgium, July 9, 1996.
69. "Modeling the Growth of Bulk Single Crystals via High Performance Computing," Institut für Werkstoffwissenschaften, Universität Erlangen-Nürnberg, Erlangen, Germany, July 16 1996.
70. "Modeling the Growth of Bulk Single Crystals via High Performance Computing," Institut für Kristallzüchtung, Berlin, Germany, July 18, 1996.
71. "New Vistas for Fluid Flow and Thermal Modeling in Bulk Crystal Growth: Transient and Three-Dimensional Phenomena," ACCG-10/ICVGE-9, Tenth American Conference on Crystal Growth/Ninth Internationa.l Conference on Vapor Growth & Epitaxy, Vail, CO, August 8, 1996.
72. "An Overview of Continuum Transport Phenomena during the Growth of Large Single Crystals," Supervisão de Materiais Optoelectrônicos, Instituto de Pesquisas Energéticas e Nucleares, São Paulo, Brazil, September 23, 1996.
73. "Modeling the Melt Growth of Oxide and Fluoride Single Crystals: Understanding the Effects of Internal Radiation and Convection," Supervisão de Materiais Optoelectrônicos, Instituto de Pesquisas Energéticas e Nucleares, São Paulo, Brazil, September 24, 1996.
74. "Modeling the Bridgman Growth of Cadmium Zinc Telluride: Toward Understanding Process Yield and Crystal Quality," Supervisão de Materiais Optoelectrônicos, Instituto de Pesquisas Energéticas e Nucleares, São Paulo, Bra.zil, September 25, 1996.
75. "Modeling the Growth of Bulk Single Crystals via High Performance Computing," Instituto de Física de São Carlos, Universidade de São Paulo, São Carlos, Brazil, September 27, 1996.
76. "Heat Transfer and Fluid Dynamics during the Czochralski Growth of Oxide Single Crystals," Cristallogenèse, Ecole Polytechnique Fédérale De Lausanne, Lausanne, Switzerland, October 10, 1996.
77. "Modeling the Growth of Bulk Single Crystals via High Performance Computing," Department of Mechanics, Ecole Polytechnique Fédérale De Lausanne, Lausanne, Switzerland, October 11, 1996.
78. "Modeling the heat transfer, hydrodynamics, and thermal stresses during the horizontal Bridgman growth of CdZnTe," II-VI Incorporated, Saxonburg, PA, December 10, 1996.
79. "Modeling the Growth of Bulk Single Crystals via High Performance Computing," MEMC Electronic Materials, Inc., St. Peters, MO, February 3, 1996.
80. "Modeling Transient and Three-dimensional Fluid Flow and Transport Phenomena. during the Growth of Electronic Crystals," International Conference on Computational Engineering Science (ICES '97), San Jose, Costa Rica, May 4-9, 1997.
81. "Experiments with a Robust Parallel Nonlinear Algorithm for Analysis of 3-D Equations of Incompressible Steady-State Flows," (presented by V.F. de Almeida), International Conference on Computational Engineering Science (ICES '97), San Jose, Costa Rica, May 4-9, 1997.
82. "Parallel Computation of Three-Dimensional, Time-Dependent Hydrodynamics during Solution Crystal Growth," (presented by A. Yeckel), International Conference on Computational Engineering Science (ICES '97), San Jose, Costa Rica, May 4-9, 1997.
83. "Parallel Finite Element Analysis of Three-Dimensional Fluid Flows in Materials Processing," McNU'97, The 1997 Joint ASME/ASCE/SES Summer Meeting, Northwestern University, Chicago, IL, June 29-July 2, 1997.
84. "A Three-Dimensional, Finite Element Method for Microwave Heating Modelling," (presented t. J.W. Smith, with H.T. Davis), PIERS-Progress In Electromagnetics Research Symposium, Cambridge, MA, July 7-11, 1997.
85. "Modeling the growth of bulk single crystals via high performance computing," Fourth US National Congress on Computational Mechanics, San Francisco, CA, August 6-8, 1997.
86. "Parallel Finite Element Analysis of Three-Dimensional Fluid Flows in Materials Processing," Fourth US National Congress on Computational Mechanics, San Francisco, CA, August 6-8. 1997