475 research outputs found
Fractal structure of the soliton scattering for the graphene superlattice equation
The graphene superlattice equation, a modified sine-Gordon equation, governs
the propagation of solitary electromagnetic waves in a graphene superlattice.
This equation has kink solutions without explicit analytical expression,
requiring the use of quadrature methods. The inelastic collision of kinks and
antikinks with the same but opposite speed is studied numerically for the first
time; after their interaction they escape to infinity when its speed is either
larger than a critical value or it is inside a series of resonance windows;
otherwise, they form a breather-like state that slowly decays by radiating
energy. Here, the fractal structure of these resonance windows is characterized
by using a multi-index notation and their main features are compared with the
predictions of the resonant energy exchange theory showing good agreement. Our
results can be interpreted as new evidence in favour of this theory.Comment: 27 pages, 10 figures, 3 table
Simulation of a solar funnel cooker using MATLAB
A software for the calculation of the radiation heat transfer in solar funnel cookers by means of the radiosity method has been developed in Matlab. The software has been used to study a folding solar cooker. The cooker geometry is discretized using a triangular mesh where a piecewise constant approximation is assumed for the radiosity function. Form factors, including self-occlusions, are calculated by properly refining the triangular mesh. The concentration factor of the solar cooker is estimated as a function of its position and orientation with respect to that of the Sun.Universidad de Málaga. Campus de Excelencia Internacional AndalucĂa Tech
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