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Investigation on Mechanism of Faceted Cellular Array Growth Yuko INATOMI Institute of Space and Astronautical Science Japan Aerospace Exploration Agency.

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Presentation on theme: "Investigation on Mechanism of Faceted Cellular Array Growth Yuko INATOMI Institute of Space and Astronautical Science Japan Aerospace Exploration Agency."— Presentation transcript:

1 Investigation on Mechanism of Faceted Cellular Array Growth Yuko INATOMI Institute of Space and Astronautical Science Japan Aerospace Exploration Agency

2 Background Some works on production of high quality semiconductor devices, for example thin-film silicon single crystals produced by zone melting recrystallization, have reported the break-down from a planar solid- liquid (S/L) interface to a faceted cellular array. Zone-melting recrystallization of Si on SiO 2 Melt growth of In-doped GaAs Facet shape (natural quartz) Cellular array structure in metallic solidification Faceted cellular array structure

3 Breakdown of S/L interface (naphthalene-1wt.% camphor alloy) After Fabietti et al.

4 Objectives Although many theoretical models have been proposed, there have been few works that experimental evidences are consistent with theoretical mechanisms. The main reason is that it is difficult to quantitatively evaluate the interface kinetics effect, which controls incorporation process of atoms or molecules at the S/L interface, due to buoyancy convection. Therefore, in order to investigate the phenomena at the interface in facet growth, in-situ observation of concentration and temperature diffusion fields with two wavelength interferometer is carried out using transparent organic material under a microgravity condition.

5 Crystal growth in microgravity On Earth In Space It is difficult to quantitatively evaluate a phenomena at a solid/liquid (S/L) interface during crystal growth on earth due to buoyancy convection. Temperature and concentration gradients in a liquid become driving forces of the convection and the convection influences a morphological change of the S/L interface. An application of a microgravity environment in space is considered to be a promising method to investigate the morphological stability of the interface. Buoyancy convectionCrystal growth in convection

6 Simultaneous measurement for temperature and concentration fields in real time Relative temperature and concentration fields,  T(t) and  C(t), can be obtained. 以下の連立方程式を画素ごとに解く。 The refractive index of the alloy melt depends on temperature, concentration and wavelength of the incident light.  1 2

7 Temperature and concentration profiles (under 1 g) Interference fringe patterns in liquid obtained by two-wavelength interferometry (under 1 g) 1 = 460 nm 2 = 780 nm Temperature Relative concentration In situ measurement of temperature and concentration fields (salol - t-butyl alcohol alloy)

8 POWER Line Electrical Interface Laser Solution Crystallization Observation Facility of ISS ( SCOF)  Mach-Zehender type microscopic interferometer  Precise temperature controller  Image storage and processing unit

9 Quartz glass cell Specimen Peltier devices for temperature control of cell Specimen cell (PFM)

10 Phase diagram of salol - t-butyl alcohol

11 Experimental sequence in ISS Facet growth of “salol” Interferometric fringes around the growing crystal

12 Contribution to society The obtained results in space can provide fruitful data on creating high-quality materials for industrial use, such as a solar cell and a superconducting magnet. Crystal growth models for mineral on earth and meteorite in space will be developed based on the result. Solar cell Magnetic levitated trainMeteorite

13 Backup charts

14 Observation results under 1 G (purified salol) Morphological change of S/L interface (purified salol) Temperature gradient in the vicinity of S/L interface


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