Crystallite model for flow in nanotube caused by wall soliton
Annotation
Fluid flow in a nanotube, caused by a moving soliton-like perturbation of its wall, is considered. We use a crystallite model for nanotube flow. A picture of the flow is described. The formula for crystallite velocity is derived, allowing one to find fluid flux through a nanotube.
Keywords
Постоянный URL
Articles in current issue
- Essential and discrete spectrum of a three-particle lattice Hamiltonian with non-local potentials
- Channels of electron-electron interactions in highly doped heterojunction
- Time-series rate of convergence to quasi-periodic oscillations
- Comparison of wavelet transform and Fourier transform applied to analysis of non-stationary processes
- Conversion efficiency of second harmonic generation in onedimensional photonic crystal based from isotropic material
- The absorption of electromagnetic radiation in a quantum wire
- Relationship plurality approximation
- Benchmark solutions for nanoflows
- Metastable clusters and aggregative nucleation mechanism
- GaAs thermal oxidation activated by the coaction of p-block oxides
- Volume properties of water solution and refraction at 25 oC water-soluble tris-malonate of light fullerene- C60[=C(COOH)2]3
- Poly-thermal solubility and complex thermal analysis of water-soluble tris-malonate of light fullerene – C60[=C(COOH)2]3
- Effect of calcination temperature on the structural and optical properties of nickel oxide nanoparticles