Magneto-optic conduction in electrolytically filled ceramics channels

Summary form only given. The technical feasibility great boons of ceramic engineering i.e. optical fiber, superconductivity etc. seems to be low lying as regards their commercial viability is concerned. Our magneto dynamic experimentation over a variety of electrolytes and polymeric systems belonging to metallic Si(IV) & Ti(IV) respectively reveals that the ceramics channels filled with the above systems, when controlled magnetodynamical may prove a potential resources of cheap magneto optic communications. The classical magneto-resistance of such systems differs as it occurs in the absence of the external magnetic field and is independent of conductivity of system. The presence of linear component of the photo volatic communication in y-direction due to non equipotentiality of the x-direction electric field under magnetic field in z-direction, occurence of longitudinal photo volatic magneto resistance and quadratic component of the photo volatic current increment prevails as per anticipation of phenomeno-logical treatment. This shows the evidence of strong anisotropy associated with transport parameters as per findings in the classical assessment. The electromagnetic field near the tip of ellipitcal cone can be represented by the sum over a set of vector wave function. The characterising the electromagnetic communication in the optical as well as the invisible frequency microwave ranges to infrared.