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Growth analysis of the InSb compound by a calorimetric method in microgravity; Results of the spacelab-D1 experiment

  • Published:1988-10 Issue:3-4 Volume:92 Page:467-478
  • ISSN:0022-0248
  • Container-title:Journal of Crystal Growth
  • language:en
  • Short-container-title:Journal of Crystal Growth

Author:

Duffar T.,Potard C.,Dusserre P.

Publisher

Elsevier BV

Subject

Materials Chemistry,Inorganic Chemistry,Condensed Matter Physics

Reference8 articles.

1. Efficient numerical technique for one-dimensional thermal problems with phase change

2. Crystal Growth and Steady‐State Segregation under Zero Gravity: InSb

3. Proc. 3rd European Symp. on Materials Science in Space;Kashimov,1979

4. Proc. 4th European Symp. on Materials Science under Microgravity;Zemskov,1983

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1. Dewetted Bridgman crystal growth: practical stability over a bounded time period in a forced regime;Journal of Engineering Mathematics;2011-11-11

2. Non-Lyapunov Type Stability in a Model of the Dewetted Bridgman Crystal Growth Under Zero Gravity Conditions;Microgravity Science and Technology;2011-07-06

3. Bulk Growth of InSb and Related Ternary Alloys;Bulk Crystal Growth of Electronic, Optical & Optoelectronic Materials;2010-07-14

4. Bulk Crystal Growth Under Microgravity Conditions;Bulk Crystal Growth of Electronic, Optical & Optoelectronic Materials;2010-07-14

5. Growth and Characterization of Antimony-Based Narrow-Bandgap III–V Semiconductor Crystals for Infrared Detector Applications;Springer Handbook of Crystal Growth;2010
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