Author(s)

Saleem Iqbal^1*, Salma Jabeen², Farhana Sarwar^1,3, Syed Mohsin Raza²

¹Department of Mathematics, University of Balochistan, Quetta, Pakistan.
²Department of Physics, University of Balochistan, Quetta, Pakistan.
³Department of Mathematics, F. G. Girls Degree College, Quetta Cantt, Pakistan.

With conjecture of fractional charge quantization (quantum dipole/multiple moments), Fourier transform stretching, twisting and twigging of an electron quanta and waver strings of electron quanta, the mathematical expressions for mesoscopic fractional electron fields in a cavity of viscous medium and the associated quantum dielectric susceptibility are developed. Agreement of this approach is experimentally evidenced on barite and Fanja site molecular sieves. These findings are in conformity with experimental results of 2012 Physics Nobel prize winning scientists, Serge Haroche and David J. Wineland especially for cavity quantum electro-dynamics electron and its associated mesoscopic electric fields. The mover electron quanta strings lead to warping of space and time following the behaviour of quantum electron dynamics.

Mesoscopic Fractional Electric Fields, Quantum Dielectric Susceptibility, Giant Magneto Resistance (GMR), Fourier Transform (FT), Woven Strings of Electron Quanta, Warping of Space and Time Following QED (Quantum Electrodynamics)

Iqbal, S. , Jabeen, S. , Sarwar, F. and Raza, S. (2016) Quantum Theory of Mesoscopic Fractional Electric Fields in a Cavity of Viscous Medium. World Journal of Condensed Matter Physics, 6, 39-44. doi: 10.4236/wjcmp.2016.61006.