G. W. Berkstresser scite author profile

Dilatometry, high-temperature x-ray diffraction, differential thermal analysis, and differential scanning calorimetry have been performed on LaGaO3, NdGaO3, PrGaO3, SmAlO3, and LaAlO3 single crystals grown by the Czochralski technique. First order phase transitions have been located at 145 °C for LaGaO3 and 785 °C for SmAlO3, and Ai/ has been measured for the LaGaO3 transition. Second order transitions have been identified for LaGaO3, PrGaO3, NdGaO3, and LaAlO3. The usefulness of these compounds as substrates for high temperature superconducting films is discussed in terms of thermal expansion matching.

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ScAlMgO₄: An Oxide Substrate for GaN Epitaxy

Hellman

Brandle

Schneemeyer

et al. 1995

MRS Proc.

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We report the use of ScAlMgO4 as a substrate for the epitaxial growth of wurzitic GaN. The low misfit (+1.8%) allows coherent epitaxy of GaN, as observed by RHEED. The congruent melting of ScAlMgO4 makes Czochralski growth possible, suggesting that large, high quality substrates can be realized. Boules about 17mm in diameter are reported. We have used nitrogen-plasma molecular beam epitaxy to grow GaN epitaxial films onto ScAlMgO4 substrates. Band-gap photoluminescence has been observed from some of these films, depending primarily on the deposition conditions. A 3×3 superstructure has been observed by RHEED on the GaN surfaces. Structural analysis by x-ray diffraction indicates very good in-plane alignment of the GaN films. We also report thermal expansion measurements for ScAlMgO4.

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ScAlMgO₄: an Oxide Substrate for GaN Epitaxy

Hellman

Brandle

Schneemeyer

et al. 1996

MRS Internet j. nitride semicond. res.

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Czochralski growth of rare-earth orthosilicates (Ln2SiO5)

Brandle

Valentino

Berkstresser

1986

Journal of Crystal Growth

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Single‐Crystal Rare‐Earth‐Doped Yttrium Orthosilicate Phosphors

Shmulovich

Berkstresser

Brandle

et al. 1988

J. Electrochem. Soc.

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This is a study of a group of Czochralski grown rare‐earth‐doped Y2SiO5 single‐crystal cathodoluminescent phosphors. Such dopants as Ce3+, Tb3+, Eu3+, Sm3+, Tm3+, Gd3+, and some of their combinations were investigated. Activation by false(Ce3++Gd3+false) , false(Tb3++Gd3+false) , and by false(Tb3++Eu3+false) produced the most efficient blue, green, and red phosphors, respectively. In comparison with our previous best garnet single‐crystal phosphor system, the Y2SiO5‐normalbased blue, green, and red phosphors are by factors 12.7, 1.23, and 0.7 brighter, respectively. Gd3+:Y2SiO5 was shown to be an efficient single line (313 nm) emitting phosphor of very high spectral brightness in UV.

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G. W. Berkstresser

Thermal analysis of rare earth gallates and aluminates

ScAlMgO₄: An Oxide Substrate for GaN Epitaxy

ScAlMgO₄: an Oxide Substrate for GaN Epitaxy

Czochralski growth of rare-earth orthosilicates (Ln2SiO5)

Single‐Crystal Rare‐Earth‐Doped Yttrium Orthosilicate Phosphors

Contact Info

Product

Resources

About

G. W. Berkstresser

Thermal analysis of rare earth gallates and aluminates

ScAlMgO4: An Oxide Substrate for GaN Epitaxy

ScAlMgO4: an Oxide Substrate for GaN Epitaxy

Czochralski growth of rare-earth orthosilicates (Ln2SiO5)

Single‐Crystal Rare‐Earth‐Doped Yttrium Orthosilicate Phosphors

Contact Info

Product

Resources

About

ScAlMgO₄: An Oxide Substrate for GaN Epitaxy

ScAlMgO₄: an Oxide Substrate for GaN Epitaxy