Interfaces -- crystal-melt

7. F. Spaepen, "A structural model for the solid-liquid interface in monatomic systems," Acta Metallurgica 23:729-743 (1975).
 
 
8. F. Spaepen and R.B. Meyer, "The surface tension in a structural model for the solid-liquid interface," Scripta Metallurgica 10:257-263 (1976).
 
 

20. F. Spaepen and D. Turnbull, "Kinetics of motion of crystal-melt interfaces," Laser-Solid Interactions and Laser Processing, American Institute of Physics Conference Proceedings (New York: American Institute of Physics, 1979), pp. 73-83.
 
 

38. F. Spaepen and D. Turnbull, "Crystallization processes," Laser Annealing of Semiconductors (New York: Academic Press, 1982), pp. 15-42.
 
 

109. D.R. Nelson and F. Spaepen, "Polytetrahedral order in condensed matter," Solid State Physics (San Diego, CA: Academic Press, 1989) 42:1-90.
 
 

177. F. Spaepen, "The temperature dependence of the crystal-melt interfacial tension: A simple model," NATO Advanced Research Workshop on Undercooled Metallic Melts: Properties, Solidification and Metastable Phases, Il Ciocco, Italy, Materials Science and Engineering A178:15-18 (1994).
 
 

181. F. Spaepen, "Homogeneous nucleation and the temperature dependence of the crystal-melt interfacial tension," Solid State Physics (Boston: Academic Press, Inc., 1994), Vol. 47, pp. 1-32.
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192. Y. Shao and F. Spaepen, "Undercooling of bulk liquid silicon in an oxide flux," Journal of Applied Physics, 79:2981-2985 (1996).
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197. F. Spaepen and Y. Shao, "The crystal-melt interface in Si or Ge," Materials Research Society Symposium Proceedings (Pittsburgh, PA: Materials Research Society, 1996), pp. 39-44.
 
 

200. G.D. Wilk, J.F. Chervinsky, F. Spaepen and J.A. Golovchenko, "The effect of substrate miscut on low-temperature homoepitaxial growth on Si(111) mediated by overlayers of Au:  Evidence of step flow,” Applied Physics Letters, 70:2553-2555 (1997).
 
 

202. F. Spaepen, "Effect of structural non-uniformity on the temperature dependence of the crystal-melt interfacial tension," Materials Science & Engineering A, 226-228:129-132 (1997).
 
 

217. J. Fransaer, A.V. Wagner and F. Spaepen, “Solidification of Ga-Mg-Zn in a gas-filled drop tube:  experiments and modeling”, Journal of Applied Physics, 87:1801-1818 (2000).



242. P. Schall, I. Cohen, D.A. Weitz and F. Spaepen, "Visualization of dislocation dynamics in colloidal crystals", Science 05: 1944-1948 (2004).
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243 D.T. Wu, L. Gránásy and F. Spaepen, "Nucleation and the solid-liquid interfacial free energy", MRS Bulletin, 29: 945-950 (2004).




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