Add to ORKGA crystal growth experiment to be performed on USML-1 is presented. The objective is to determine the effect of microgravity growth on dopant segregation
A series of Ge(sub 1-x)Si(sub x) crystal growth experiments are planned to be conducted in the Low G...
Three microgravity Floating-Zone experiments have been performed and evaluated during the project: t...
Materials science experiments have been a key issue already since the early days of research under m...
Crystal growth experiment to be performed on USML-1. Objective is to determine effect of microgravit...
A systematic investigation of the effect of gravity driven fluid flow on GaAs crystal growth was per...
The present program has been aimed at solving the fundamental and technological problems associated ...
Gallium arsenide, a commercially valuable semiconductor, has been prepared from the melt (M.P. 1237C...
The production of high quality crystals in space is a promising near-term application of microgravit...
The experimental approach was directed along two main goals: (1) the implementation of an approach t...
Within the framework of the proposed research, emphasis was placed on application of magnetic fields...
The imperfections in the grown crystals of electronic materials, such as compositional nonuniformity...
An experiment in gallium arsenide liquid phase epitaxy was performed successfully on the SPAR 6 flig...
Compound semiconductor crystals, such as gallium arsenide and indium phosphide crystals, have many i...
The United States Microgravity Laboratory (USML-1) is one part of a science and technology program t...
The second year of operation of the Center for Commercial Crystal Growth in Space is described. This...
A series of Ge(sub 1-x)Si(sub x) crystal growth experiments are planned to be conducted in the Low G...
Three microgravity Floating-Zone experiments have been performed and evaluated during the project: t...
Materials science experiments have been a key issue already since the early days of research under m...
Crystal growth experiment to be performed on USML-1. Objective is to determine effect of microgravit...
A systematic investigation of the effect of gravity driven fluid flow on GaAs crystal growth was per...
The present program has been aimed at solving the fundamental and technological problems associated ...
Gallium arsenide, a commercially valuable semiconductor, has been prepared from the melt (M.P. 1237C...
The production of high quality crystals in space is a promising near-term application of microgravit...
The experimental approach was directed along two main goals: (1) the implementation of an approach t...
Within the framework of the proposed research, emphasis was placed on application of magnetic fields...
The imperfections in the grown crystals of electronic materials, such as compositional nonuniformity...
An experiment in gallium arsenide liquid phase epitaxy was performed successfully on the SPAR 6 flig...
Compound semiconductor crystals, such as gallium arsenide and indium phosphide crystals, have many i...
The United States Microgravity Laboratory (USML-1) is one part of a science and technology program t...
The second year of operation of the Center for Commercial Crystal Growth in Space is described. This...
A series of Ge(sub 1-x)Si(sub x) crystal growth experiments are planned to be conducted in the Low G...
Three microgravity Floating-Zone experiments have been performed and evaluated during the project: t...
Materials science experiments have been a key issue already since the early days of research under m...