Add to ORKGThe molten zone/freezing crystal interface system and all the mechanisms were examined. If Marangoni convection produces oscillatory flows in the float zone of semiconductor materials, such as silicon, then it is unlikely that superior quality crystals can be grown in space using this process. The major goals were: (1) to determine the conditions for the onset of Marangoni flows in molten tin, a model system for low Prandtl number molten semiconductor materials; (2) to determine whether the flows can be suppressed by a thin oxide layer; and (3) based on experimental and mathematical analysis, to predict whether oscillatory flows will occur in the float zone silicon geometry in space, and if so, could it be suppressed by thin oxide or nitrid...
The mechanism of crystal growth which may be affected by the space environment was studied. Conclusi...
Gallium arsenide, a commercially valuable semiconductor, has been prepared from the melt (M.P. 1237C...
This section of the Life and Microgravity Spacelab (LMS) publication includes the following articles...
The demand for larger crystals is increasing especially in applications associated with the electron...
The results were reported of investigations to: (1) test the validity of analyses which set maximum ...
Results are given for investigations into: (1) the physical limits which set the maximum practical ...
Presentations made on space based float zone crystal growth and melt behavior are summarized and han...
The theoretical analysis of the fluid mechanics and heat transfer of motions driven by surface tensi...
The fluid mechanics and heat transfer of motions driven by surface tension gradients (Marangoni conv...
On the ground the upper layer of the liquid in a vessel heated from below becomes hotter than the lo...
A breadboard float zone experimental system has been established at Westech Systems for use by NASA ...
The objective was to study thermocapillary convection in a transparent floating zone. The floating z...
Nearly 90 percent of semiconductor devices are produced with Si single crystals as the starting mate...
NASA has been interested in experimental ground based study to investigate the fundamental processes...
Material experiments were carried out on the Space Shuttle, and experiments on the space platform ar...
The mechanism of crystal growth which may be affected by the space environment was studied. Conclusi...
Gallium arsenide, a commercially valuable semiconductor, has been prepared from the melt (M.P. 1237C...
This section of the Life and Microgravity Spacelab (LMS) publication includes the following articles...
The demand for larger crystals is increasing especially in applications associated with the electron...
The results were reported of investigations to: (1) test the validity of analyses which set maximum ...
Results are given for investigations into: (1) the physical limits which set the maximum practical ...
Presentations made on space based float zone crystal growth and melt behavior are summarized and han...
The theoretical analysis of the fluid mechanics and heat transfer of motions driven by surface tensi...
The fluid mechanics and heat transfer of motions driven by surface tension gradients (Marangoni conv...
On the ground the upper layer of the liquid in a vessel heated from below becomes hotter than the lo...
A breadboard float zone experimental system has been established at Westech Systems for use by NASA ...
The objective was to study thermocapillary convection in a transparent floating zone. The floating z...
Nearly 90 percent of semiconductor devices are produced with Si single crystals as the starting mate...
NASA has been interested in experimental ground based study to investigate the fundamental processes...
Material experiments were carried out on the Space Shuttle, and experiments on the space platform ar...
The mechanism of crystal growth which may be affected by the space environment was studied. Conclusi...
Gallium arsenide, a commercially valuable semiconductor, has been prepared from the melt (M.P. 1237C...
This section of the Life and Microgravity Spacelab (LMS) publication includes the following articles...