29 November 2008
- 04:3404:34, 29 November 2008 diff hist −640 Molecular beam epitaxy No edit summary
28 November 2008
- 15:5415:54, 28 November 2008 diff hist +52 Molecular beam epitaxy No edit summary
- 15:5215:52, 28 November 2008 diff hist +38 m Molecular beam epitaxy No edit summary
- 15:5015:50, 28 November 2008 diff hist +668 m Molecular beam epitaxy No edit summary
- 15:3715:37, 28 November 2008 diff hist 0 m Molecular beam epitaxy No edit summary
- 15:3515:35, 28 November 2008 diff hist +3 m Molecular beam epitaxy No edit summary
- 15:3415:34, 28 November 2008 diff hist +2 m Molecular beam epitaxy No edit summary
- 15:3415:34, 28 November 2008 diff hist +1 m Molecular beam epitaxy No edit summary
- 15:3215:32, 28 November 2008 diff hist −92 m Molecular beam epitaxy No edit summary
- 15:3015:30, 28 November 2008 diff hist +1,019 Molecular beam epitaxy No edit summary
- 15:1515:15, 28 November 2008 diff hist +39 m Molecular beam epitaxy No edit summary
- 15:1215:12, 28 November 2008 diff hist +23 m Molecular beam epitaxy No edit summary
- 14:5914:59, 28 November 2008 diff hist +301 Molecular beam epitaxy No edit summary
- 14:5114:51, 28 November 2008 diff hist +145 N File:MBEledgegrowth.png Diagram showing direction and shape of new layer growth in a slow deposition process, like molecular beam epitaxy. Circular growth is preferred. current
- 14:4914:49, 28 November 2008 diff hist +413 N File:MBElateralgrowth.png Atomic placement leading to lateral growth of a thin film. Atoms are represented by cubes. Atom A adds more broken bonds than Atom B when it is added to the system. Atom C adds no new broken bonds. Atoms are more likely to diffuse into positions B or current
- 14:4614:46, 28 November 2008 diff hist +313 Molecular beam epitaxy No edit summary
- 14:4414:44, 28 November 2008 diff hist +183 N File:MBEsinglephase.png Phase diagram for a single phase system. Source: Chris Cochrane (2008). Based on a diagram from Callister, W. Materials Science and Engineering: An Introduction, 7th edition. (2007) current
- 14:4114:41, 28 November 2008 diff hist +124 N File:MBEeffusioncell1.png Axial view of an effusion cell for use in MBE. Source: US Patent#5,540,780 (under Prior Art) (Haas, T. and Eyink, K., 1996) current
- 14:3614:36, 28 November 2008 diff hist +105 N File:MBEapparatus2.png Image of the apparatus used for molecular beam epitaxy. Source: US Patent#4,542,712 (Kazuo, et al., 1985) current
- 14:3614:36, 28 November 2008 diff hist +105 N File:MBEapparatus1.png Image of the apparatus used for molecular beam epitaxy. Source: US Patent#4,542,712 (Kazuo, et al., 1985) current