notes = "explanation of sgmd and hyper md, applied to amorphous
silicon",
}
+
+@Article{taylor93,
+ author = "W. J. Taylor and T. Y. Tan and U. G{\"{o}}sele",
+ collaboration = "",
+ title = "Carbon precipitation in silicon: Why is it so
+ difficult?",
+ publisher = "AIP",
+ year = "1993",
+ journal = "Applied Physics Letters",
+ volume = "62",
+ number = "25",
+ pages = "3336--3338",
+ keywords = "SILICON; CARBON ADDITIONS; OXYGEN ADDITIONS; DOPED
+ MATERIALS; PRECIPITATION; THERMODYNAMICS; SURFACE
+ ENERGY",
+ URL = "http://link.aip.org/link/?APL/62/3336/1",
+ doi = "10.1063/1.109063",
+ notes = "interfacial energy of cubic sic and si",
+}
+
+@Article{chaussende08,
+ title = "Prospects for 3{C}-Si{C} bulk crystal growth",
+ journal = "Journal of Crystal Growth",
+ volume = "310",
+ number = "5",
+ pages = "976--981",
+ year = "2008",
+ note = "Proceedings of the E-MRS Conference, Symposium G -
+ Substrates of Wide Bandgap Materials",
+ ISSN = "0022-0248",
+ doi = "DOI: 10.1016/j.jcrysgro.2007.11.140",
+ URL = "http://www.sciencedirect.com/science/article/B6TJ6-4R7J67S-F/2/e92fc194b652409f5b119393d608b082",
+ author = "D. Chaussende and F. Mercier and A. Boulle and F.
+ Conchon and M. Soueidan and G. Ferro and A. Mantzari
+ and A. Andreadou and E. K. Polychroniadis and C.
+ Balloud and S. Juillaguet and J. Camassel and M. Pons",
+ notes = "3c-sic crystal growth, sic fabrication + links, metastable",
+}