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7 July 1997 Processing of mercurous chloride in space
C. Watson; N. B. Singh; A. Thomas; A. E. Nelson; T. O. Rolin; J. Griffin; G. Haulenbeek; N. Daniel; J. Seaquist; C. Cacioppo; Jerry Weber; Maria Ittu Zugrav; R. J. Naumann
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Proceedings Volume 3123, Materials Research in Low Gravity; (1997) https://doi.org/10.1117/12.277725
Event: Optical Science, Engineering and Instrumentation '97, 1997, San Diego, CA, United States
Abstract
Mercurous chloride is an acoustical optical material with an unusually low acoustic velocity and high acousto-optical figure of merit, which makes it an interesting candidate for optical delay lines and Bragg cells for optical signal processors. It also has a broad range of spectral transmissivity which makes it an ideal candidate for wide band acoustically tuned optical filter (ATOF) applications. Single crystals of this material can be readily grown in normal gravity by closed-tube physical vapor transport, but the crystals appear to contain structural inhomogeneities which degrade the optical performance. The nature of these defects is not known, but their degree appears to correlate with the Rayleigh number that characterizes their growth; hence, it is suspected that uncontrolled convection may play a role in the defect structure. This prompted a space flight experiment to determine if these defects could be further reduced by virtually eliminating the buoyancy-driven convective flows which are always present to a degree in normal gravity. Single crystals of mercurous chloride (Hg2Cl2) were grown in the Space Experiment Facility (SEF) transparent furnace developed by the University of Alabama in Huntsville, Consortium for Materials Development in Space. The Northrop- Grumman Science and Technology Center provided the highly purified starting material and analyzed the crystals that were grown. This experiment was flown on Spacehab 4 (STS-77) in May 1996. The SEF is a transparent furnace which allowed the progress of the growth to be recorded by video. Extensive furnace profiling and modeling has been carried out to relate the growth front location to the thermal environment and to the crystal quality. The results of the flight experiment as well as the ground control experiments are presented.
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C. Watson, C. Watson, N. B. Singh, N. B. Singh, A. Thomas, A. Thomas, A. E. Nelson, A. E. Nelson, T. O. Rolin, T. O. Rolin, J. Griffin, J. Griffin, G. Haulenbeek, G. Haulenbeek, N. Daniel, N. Daniel, J. Seaquist, J. Seaquist, C. Cacioppo, C. Cacioppo, Jerry Weber, Jerry Weber, Maria Ittu Zugrav, Maria Ittu Zugrav, R. J. Naumann, R. J. Naumann, } "Processing of mercurous chloride in space", Proc. SPIE 3123, Materials Research in Low Gravity, (7 July 1997); doi: 10.1117/12.277725; https://doi.org/10.1117/12.277725
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