Technology
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| ● | For the growth of high quality single crystals by the optical float zone method. Ref."Zone Melting" by William G. Pfann; Robert E. Krieger Publishing Company Huntington, New York, 1978 |
| ● | Growth of single crystals by the travelling solvent float zone method using the optical floating zone furnace. |
| ● | The scheme of the crystal growth by the travelling solvent float zone method. Ref.1: Growth of YFe2O4 Single Crystals by the floating zone method. I.Shindo et al., Material Research Bull., 11(1976)637 Ref.2: Single crystal growth of substituted yttrium Iron garnet Y3Fe5-x (Ca, Al) x O12 by the floating zone method. I. Shindo et al., J. Crystal Growth 46(1979) 307-313 |
| ● | How to measure and decide the volume and the composition of the solvent zone for the travelling solvent float zone method Ref. Growth of Mg2TiO4 single crystals by the floating zone method; I. Shindo et al., J. Material Science 14(1979) 1901-1906 |
| ● | Cellular growth mechanism for the growth of high quality single crystals. Ref. Crystal Growth: an introduction by editer P. Hartman NORTH-HOLLAND PUBLISHING COMPANY-AMSTERDAM 1973 |
| ● | Compositional in homogeneity by the Temperature Gradient Zone Melting Mechanism. Ref. "Zone Melting" by William G. Pfann; Robert E. Krieger Publishing Company Huntington, New York, 1978 P.254 |
| ● | The slow cooling float zone method for the phase research Ref.1. Determination of the phase diagram by the slow cooling float zone method: the system Mg-O-TiO2. I. Shindo J. Crystal Growth 50 (1980) 839-851 Ref.2. Phase relation in the ternary system ZrO2-Al2O3-SiO2 by the slow cooling float zone method. I. Shindo et al., Advances in Ceramics / Volume 12; Science and Technology of Zirconia II The America Ceramic Society, Inc., Columbus, Ohio 1984 p. 181 |
| ● | For the stable crystal growth using a gas guide. Ref. The technical report for the "Gas Guide" |
