Multiple-Lump Waves and Their Breaking Properties for a Thermophoretic Motion System in a Graphene Sheet
A thermophoretic motion system with a variable heat transmission factor is investigated, which describes wrinkling soliton propagation in a substrate-supported graphene sheet. Analytic multiple-lump wave solutions are constructed via the Hirota bilinear method and symbolic computation.
A numerical simulation shows that the system exhibits breaking lump waves. The system parameters control the open width and number of breaking gaps. These results should contribute to a better understanding of the propagation characteristics of wrinkling solitons in a complex graphene thermophoretic
motion system.
Keywords: BREAKING LUMP WAVE; HIROTA BILINEAR METHOD; SUBSTRATE-SUPPORTED GRAPHENE SHEET; THERMOPHORETIC MOTION SYSTEM; VARIABLE HEAT TRANSMISSION FACTOR
Document Type: Short Communication
Publication date: 01 March 2018
- Nanoscience and Nanotechnology Letters (NNL) is a multidisciplinary peer-reviewed journal consolidating nanoscale research activities in all disciplines of science, engineering and medicine into a single and unique reference source. NNL provides the means for scientists, engineers, medical experts and technocrats to publish original short research articles as communications/letters of important new scientific and technological findings, encompassing the fundamental and applied research in all disciplines of the physical sciences, engineering and medicine.
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