Crystal growth from undercooling melts under strong gradients of temperatures generating in short-duration microgravity

Autoria(s): Mamiya, Mikito; Nagai, Hideaki; Castillo, Martin; Okutani, Takeshi
Data(s)

2005
Resumo

Crystal growth of bulk CdTe in short-duration microgravity is performed by the unidirectional cooling method. The largest growth grains in microgravity samples are 4X2mm. The cooling profiles indicate undercooling melts in microgravity. Cooling melt samples in microgravity generate strong gradient of temperature due to stop thermal convections. Temperature distribution in the melt is calculated by the one-dimensional equation of heat conduction, and about 100 K-undercooling is considered to occur at the cooling surface.
Formato

application/pdf
Identificador

http://eprints.qut.edu.au/42207/
Publicador

Dō Gakkai
Relação

http://eprints.qut.edu.au/42207/1/2011009006_Castillo_ePrints.pdf

http://ci.nii.ac.jp/vol_issue/nels/AN00188386_en.html

Mamiya, Mikito, Nagai, Hideaki, Castillo, Martin, & Okutani, Takeshi (2005) Crystal growth from undercooling melts under strong gradients of temperatures generating in short-duration microgravity. Journal of the Japanese Association of Crystal Growth, 32(3), p. 116.
Direitos

Copyright 2011 please consult authors
Fonte

Faculty of Built Environment and Engineering
Palavras-Chave #020199 Astronomical and Space Sciences not elsewhere classified #030306 Synthesis of Materials #091205 Functional Materials #Crystal Growth #Short-duration Microgravity #Undirectional
Tipo

Journal Article
Acesso ao item digital