Microgravity Research Opportunities for the 1990s

acceleration environment applications areas Astronautics behavior biological sciences biotechnology buoyancy cell Center ceramics chemical combustion composition containerless convection crystal growth density diffusion directional solidification disciplines drop towers droplet epitaxy equivalence principle experimental facilities films flame flight experiments flows fluid dynamics fluid mechanics free-fall fundamental fusion glasses gradient gravity ground-based group III-V heat important improved inorganic interactions interface investigators limited liquid low-gravity environment Macromolecular materials processing materials science mechanics and transport melt ments methods micro microgravity conditions microgravity environment microgravity experiments microgravity program microgravity research Microgravity Science microstructure mission molecular NASA NASA's nucleation optical orbiting parameter particles phase physics polymer polymerization potential priority properties protein protein crystal growth recommendations reduced gravity Reynolds number scientific solid solidification solution space station spacecraft spaceflight spacelab structure studies substrate surface tension synthesis techniques technologies temperature terrestrial thermal thermocapillary tion transport phenomena understanding vapor