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| Referend Journal Publications | |
1. |
Heat transfer analysis and structure perfection of shaped semi-transparent crystals Journal of Crystal Growth 128 (1993) 152-158 I.Nicoara, D.Nicoara, D.Vizman |
2. |
Interface Shape Studies of Fluoride and Silicon Rods Grown by the E.F.G. Method Crystal Research and Technology 30 (1995) 1085-1093 I.Nicoara, D.Vizman |
3. |
On the Factors Affecting the Isotherm Shape during Bridgman Growth of Semi-transparent Crystals Journal of Crystal Growth 169 (1996) 161-169 D. Vizman, I. Nicoara, D. Nicoara |
4. |
Thermal stresses in shaped semi-transparent crystals Journal of Crystal Growth 169 (1996) 102-109 I.Nicoara, D. Vizman, D. Nicoara |
5. |
On the solidification particularities of the opaque and semi-transparent crystals obtained by Bridgman method Crystal Research and Technology 33 (1998) 207-218 I.Nicoara, Mirela Nicolov, Artur Pusztai, D.Vizman |
6. |
Experimental and Numerical Study of Rayleigh-Benard Convection Affected by a Rotating Magnetic Field Physics of Fluids 11 (1999) 853-861 J.Friedrich, Y.-S. Lee, B.Fischer, C.Kupfer, D.Vizman, G.Mueller |
7. |
3D Numerical Simulation of Melt Flow in the Presence of a Rotating Magnetic Field International Journal of Numerical Methods for Heat and Fluid Flow 10 (2000) 366-384 D.Vizman, J.Friedrich, B.Fischer and G.Mueller |
8. |
Effects of temperature asymmetry and tilting in the vertical Bridgman growth of semi-transparent crystals Journal of Crystal Growth 212 (2000) 334-339 D.Vizman, I.Nicoara and G.Mueller |
9. |
On void engulfment in shaped sapphire crystals using 3D modelling Journal of Crystal Growth 218 (2000) 74-80 I.Nicoara, D.Vizman and J.Friedrich |
10. |
Three-dimensional numerical simulation of thermal convection in an industrial Czochralski melt: comparison to experimental results Journal of Crystal Growth 233 (2001) 687-698 D.Vizman, O.Graebner, G.Mueller |
11. |
Comparison of the predictions from 3D numerical simulation with temperature distributions measured in Si Czochralski melts under the influence of different magnetic fields Journal of Crystal Growth 230 (2001) 73-80 D.Vizman, J.Friedrich, G.Mueller |
12. |
3D numerical simulation and experimental investigations of melt flow in an Si Czochralski melt under the influence of a cusp-magnetic field Journal of Crystal Growth 236 (2002) 545-550 D.Vizman, O.Graebner, G.Mueller |
13. |
Three-dimensional modeling of melt flow and interface shape in the industrial liquid-encapsulated Czochralski growth of GaAs Journal of Crystal Growth 266 (2004) 396-403 Vizman D, Eichler S, Friedrich J, Muller G |
14. |
Voids engulfment in shaped sapphire crystals Journal of Crystal Growth 287 (2006) 291-295 Nicoara I, Bunoiu OM, Vizman D |
15. |
Numerical modeling of frequency influence on the electromagnetic stirring of semiconductors melts Crystal Research and Technology 41 (2006), 645-652 C. Stelian, D. Vizman |
16. |
Large modification of crystal-melt interface shape during Si crystal growth by using electromagnetic Czochralski method (EMCZ) Journal of Crystal Growth 292 (2006) 252-256 Watanabe M, Vizman D , Friedrich J, Muller G |
17. |
A new hybrid method for the global modeling of convection in CZ crystal growth configurations Journal of Crystal Growth 303 (2007) 124-134 J. Fainberg, Vizman D, Friedrich J, Mueller G |
18. |
3D time-dependent numerical study of the influence of the melt flow on the interface shape in a silicon ingot casting process Journal of Crystal Growth 303 (2007) 231-235 Vizman D, Friedrich J, Mueller G |
19. |
Influence of different Types of magnetic fields on the interface shape in a 200mm Si-EMCZ configuration Journal of Crystal Growth 303 (2007) 221-225 Vizman D, Watanabe M, Friedrich J, Mueller G |
20. |
Numerical study of the influence of different types of magnetic fields on the interface shape in directional solidification of multi-crystalline silicon ingots Journal of Crystal Growth 318 (2011) 293-297, Tanasie C, Vizman D, Friedrich J |
21. |
Numerical study of the influence of melt convection on the crucible dissolution rate in a silicon directional solidification process, Int. Journal of Heat and Mass Transfer, Volume 54, Issues 25-26 (2011) 5540-5544 A.Popescu, Vizman D. |
22. |
Numerical Study of Melt Convection and Interface Shape in a Pilot Furnace for Unidirectional Solidification of Multicrystalline Silicon Crystal Growth and Design, 12 (2012) 320 A.Popescu, Vizman D. |
23. |
Numerical studies on a type of mechanical stirring in directional solidification method of multicrystalline silicon for photovoltaic applications, Journal of Crystal Growth, 360 (2012) 76-80 Dumitrica S., Vizman D, Garandet J.P. |
24. |
Numerical parameter studies of 3D melt flow and interface shape for directional solidification of silicon in a traveling magnetic field Journal of Crystal Growth, 381 (2013) 169-178 D. Vizman, K. Dadzis, J. Friedrich |
25. |
Novel method for melt flow control in unidirectional solidification of multi-crystalline silicon Journal of Crystal Growth, 372 (2013) 1-8 D. Vizman, C. Tanasie |
26. |
Unsteady coupled 3D calculations of melt flow, interface shape, and species transport for directional solidification of silicon in a traveling magnetic field Journal of Crystal Growth, 367 (2013) 77-87 K. Dadzis, D. Vizman, J. Friedrich |