Summary of Nanowire Growth Mechanism: Difference between revisions

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<math> h(\alpha')=-\int_0^{\alpha'}{tan(\alpha)\frac{dr}{d\alpha}d\alpha},V_L = const </math>
<math> h(\alpha')=-\int_0^{\alpha'}{tan(\alpha)\frac{dr}{d\alpha}d\alpha},V_L = const </math>

Solving the above integral, we can get the equilibrium shape of the nanowire grown by steady state process.


==Anisotropic Material Nanowire Statics==
==Anisotropic Material Nanowire Statics==

Revision as of 19:43, 26 June 2012

Summary of Nanowire Growth Mechanism

Yanming Wang and Seunghwa Ryu

Isotropic Material Nanowire Statics

No line tension at trijunction

Force balance is always kept as,

Solving the above integral, we can get the equilibrium shape of the nanowire grown by steady state process.

Anisotropic Material Nanowire Statics

Isotropic Material Nanowire Growth Dynamics

Anisotropic Material Nanowire Growth Dynamics