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Non-Debye relaxation, fractal structures

Thus, the non-Debye dielectric behavior in silica glasses and PS is similar. These systems exhibit an intermediate temperature percolation process associated with the transfer of the electric excitations through the random structures of fractal paths. It was shown that at the mesoscale range the fractal dimension of the complex material morphology (Dr for porous glasses and porous silicon) coincides with the fractal dimension Dp of the path structure. This value can be obtained by fitting the experimental DCF to the stretched-exponential relaxation law (64). [Pg.64]


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See also in sourсe #XX -- [ Pg.235 , Pg.236 , Pg.237 , Pg.238 , Pg.239 , Pg.240 , Pg.241 , Pg.242 , Pg.243 , Pg.244 , Pg.245 , Pg.246 , Pg.247 , Pg.248 , Pg.249 , Pg.250 , Pg.251 , Pg.252 ]




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Debye relaxation

Debye relaxation fractal structures

Fractal structure

Non structure

Non-structural

Relaxation fractal structures

Structural relaxation

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