J. Bürki
Published 2004-06-16Version 1
Using concepts from fluid dynamics, a partial differential equation for the shape evolution of a metallic nanowire is derived from a semiclassical energy functional that includes electron-shell effects. A rich dynamics, involving movement and interaction of kinks connecting locally stable radii, leads to the formation of a wire whose equilibrium shape is universal and consists of a cylindrical part connected to unduloid-like leads. The universality of the equilibrium shape may provide an explanation for the formation of cylindrical nanowires observed in recent experiments.
Comments: paper given at the 3rd international conference on "Computational modeling and simulation of materials", may 30-June 4, 2004
Journal: Advances in Science and Technology, 44:185-192, 2004
Nonlinear dynamics and magneto-elasticity of nanodrums near the phase transition
Nonlinear dynamics of quantum dot nuclear spins
Nonlinear Dynamics in a Magnetic Josephson Junction
