T. O. Ogurtani, "Unified theory of linear instability of anisotropic surfaces and interfaces under capillary, electrostatic, and elastostatic forces: The regrowth of epitaxial amorphous silicon," PHYSICAL REVIEW B , vol.74, no.15, 2006
Ogurtani, T. O. 2006. Unified theory of linear instability of anisotropic surfaces and interfaces under capillary, electrostatic, and elastostatic forces: The regrowth of epitaxial amorphous silicon. PHYSICAL REVIEW B , vol.74, no.15 .
Ogurtani, T. O., (2006). Unified theory of linear instability of anisotropic surfaces and interfaces under capillary, electrostatic, and elastostatic forces: The regrowth of epitaxial amorphous silicon. PHYSICAL REVIEW B , vol.74, no.15.
Ogurtani, Tarik. "Unified theory of linear instability of anisotropic surfaces and interfaces under capillary, electrostatic, and elastostatic forces: The regrowth of epitaxial amorphous silicon," PHYSICAL REVIEW B , vol.74, no.15, 2006
Ogurtani, Tarik O. . "Unified theory of linear instability of anisotropic surfaces and interfaces under capillary, electrostatic, and elastostatic forces: The regrowth of epitaxial amorphous silicon." PHYSICAL REVIEW B , vol.74, no.15, 2006
Ogurtani, T. O. (2006) . "Unified theory of linear instability of anisotropic surfaces and interfaces under capillary, electrostatic, and elastostatic forces: The regrowth of epitaxial amorphous silicon." PHYSICAL REVIEW B , vol.74, no.15.
@article{article, author={Tarik Omer Ogurtani}, title={Unified theory of linear instability of anisotropic surfaces and interfaces under capillary, electrostatic, and elastostatic forces: The regrowth of epitaxial amorphous silicon}, journal={PHYSICAL REVIEW B}, year=2006}