Add to ORKGProcessing and data reduction of holographic images from Spacelab presents some interesting challenges in determining the effects of microgravity on crystal growth processes. Evaluation of several processing techniques, including the Computerized Holographic Image Processing System and the Software Development Package (SDP151) will provide fundamental information for holographic and schlieren analysis of the space flight data
By studying the unidirectional growth of a metal-model material in microgravity, an attempt is made ...
The overall scientific goals and rationale for growing protein crystals in microgravity are discusse...
The Material Processing in the Space Program of NASA-MSFC was active in developing numerous optical ...
Processing and data reduction of holographic images from the International Microgravity Laboratory 1...
The microgravity materials processing program has been instrumental in providing the crystal growth ...
The use of holographic and schlieren optical techniques for studying the concentration gradients in ...
During the International Microgravity Laboratory-1 (IML-1) mission it is planned to grow triglycine ...
Preliminary evaluation of the data was made during the hologram processing procedure. A few represen...
An experiment was planned for the International Microgravity Laboratory (IML-1) to be launched aroun...
The Fluid Experiment System (FES) was developed to study low temperature crystal growth of triglycin...
The IML-1 Spaceflight produced over 1000 holograms of a well-defined particle field in the low g Spa...
In order to extract additional information about crystals grown in the microgravity environment of S...
In order to determine how macromolecule crystal quality improvement in microgravity is related to cr...
Strongly diffracting high quality macromolecule crystals of suitable volume are keenly sought for X-...
Optical instrumentation in the Fluids Experiment System (FES) is briefly described. Samples of the d...
By studying the unidirectional growth of a metal-model material in microgravity, an attempt is made ...
The overall scientific goals and rationale for growing protein crystals in microgravity are discusse...
The Material Processing in the Space Program of NASA-MSFC was active in developing numerous optical ...
Processing and data reduction of holographic images from the International Microgravity Laboratory 1...
The microgravity materials processing program has been instrumental in providing the crystal growth ...
The use of holographic and schlieren optical techniques for studying the concentration gradients in ...
During the International Microgravity Laboratory-1 (IML-1) mission it is planned to grow triglycine ...
Preliminary evaluation of the data was made during the hologram processing procedure. A few represen...
An experiment was planned for the International Microgravity Laboratory (IML-1) to be launched aroun...
The Fluid Experiment System (FES) was developed to study low temperature crystal growth of triglycin...
The IML-1 Spaceflight produced over 1000 holograms of a well-defined particle field in the low g Spa...
In order to extract additional information about crystals grown in the microgravity environment of S...
In order to determine how macromolecule crystal quality improvement in microgravity is related to cr...
Strongly diffracting high quality macromolecule crystals of suitable volume are keenly sought for X-...
Optical instrumentation in the Fluids Experiment System (FES) is briefly described. Samples of the d...
By studying the unidirectional growth of a metal-model material in microgravity, an attempt is made ...
The overall scientific goals and rationale for growing protein crystals in microgravity are discusse...
The Material Processing in the Space Program of NASA-MSFC was active in developing numerous optical ...