C.F. Guerci scite author profile

The desirability of having large sound single crystals of EuO for a number of physical measurements has been well established. Although crystals of EuO had previously been grown, they were either of poor quality, primarily because of container contamination, or too small for many measurements. We report here on a method of growing large, single-phase, mechanically sound crystals of EuO. The method is one where growth takes place from a solution containing an excess of europium metal. The solution, sealed in molybdenum crucibles, is cooled from 1950°–2000°C at the rate of about 25°/h. Centimeter-size crystals were grown and shown to be of extremely good quality by an examination of their Laue spots and their microstructure. The crystals have a lattice constant of 5.1451 Å±0.0003 and a density of 8.180±0.002. The data from the crystal-growing experiments were used to propose a phase diagram in which EuO, when pure, is shown to be an incongruently melting compound.

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Zn2SiO4 crystal growth from molten solutions fluxed with Pb2ZnSi2O7 and fluorides

Journal of Crystal Growth

Kuptsis

et al. 1982

Isothermal Sintering of Spheroidized Cordierite‐Type Glass Powders

Journal of the American Ceramic Society

Walker

et al. 1985

Jagged (ball–milled) glass particles were spheroidized and pressed into compacts which were isothermally sintered in air. Both jagged‐ and spheroidized‐particle compacts showed about the same 0.7 anisotropy of the ratio of axial to diametral shrinkage, but spheroidizing reduced the shrinkage rate. Thus, shrinkage anisotropy is not a simple particle shape effect; it may relate to differences in the axial and radial distributions of particle sizes present in these compacts.

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Epitaxial iron garnet films with submicron diameter magnetic bubbles

Materials Research Bulletin

Kuptsis

et al. 1973

(EuTm)3(FeGa)5O12 garnet films with one-micron diameter magnetic bubbles

Davies

et al. 1975