✍ Scribed by P. Bordewijk
No coin nor oath required. For personal study only.
📜 SIMILAR VOLUMES
The formally exact expression for the dielectric permittivlty tensor of a hquid crystal is obtained within the model of point molecukr polarizability. The expansion of the dielectCc tensor in the correlation functions is presented ard the generalized Lorentz-Lorenz equations are derived in the molec
The material-independent perfectly matched layer ( ) MIPML , which is based on the idea proposed by Berenger, is a kind of ( absorber de¨oted to handling wa¨es propagating in complex such as ) anisotropy, dispersion, and nonlinearity materials. This paper presents an extension of the MIPML absorber
A new method is sugestcd to determine the dielectric permittivity OF materials, by means of time domain reflectomztry (TDR), for frequencies IJ 2 4 X 10' Hz independent of the value of the rclasntion frequency involved. The method uses the whole set of reflections from a dielectric sample which is
## Abstract We consider a model of the motion of a viscous dielectric liquid subjected to a DC electric field in the case when the bulk conduction results from the presence of a dissociation‐recombination process. The effects of both magnetic field and ionic diffusion are neglected. The existence o