Preprint Article Version 1 This version is not peer-reviewed

Derivation of Time and Spatial Decaying of Schrodinger Equation Using Maxwell Electric Equation to Describe Scattering in Some Physical Systems

Version 1 : Received: 13 July 2020 / Approved: 14 July 2020 / Online: 14 July 2020 (11:22:29 CEST)

How to cite: Saad, Z.A.A.A.; Mohammed, L.; Moammed, H.; Dirar, M. Derivation of Time and Spatial Decaying of Schrodinger Equation Using Maxwell Electric Equation to Describe Scattering in Some Physical Systems. Preprints 2020, 2020070300 (doi: 10.20944/preprints202007.0300.v1). Saad, Z.A.A.A.; Mohammed, L.; Moammed, H.; Dirar, M. Derivation of Time and Spatial Decaying of Schrodinger Equation Using Maxwell Electric Equation to Describe Scattering in Some Physical Systems. Preprints 2020, 2020070300 (doi: 10.20944/preprints202007.0300.v1).

Abstract

Maxwell equation for the electric field has been solved for any medium by suggesting the wavenumber and angular frequency be complex quantities. This accounts for the field decay by interaction with the medium. This expression for the time and special decay of the electric field in a medium is used to construct a new wave function sensitive to the medium physical properties. This new wave function, unlike the conventional one, differentiates between a beam of particles in a vacuum and that enters a medium which is an attenuated due to the scattering effect. Another expression for time decaying electric field was obtained using Newton’s laws for frictional medium. This expression shows that the electric field diminishes due to friction. Fortunately, this time decaying part of the electric field is typical to that derived from Maxwell’s equations. Finally, a new Schrodinger equation sensitive to the medium properties was derived. This equation, fortunately, describes some scattering processes for Protein scattering, scattering of x-rays, opto-acoustic phonons, and Raman scattering for some materials successfully.

Subject Areas

Complex wave mek complex frequency; medium; electric field; the medium wave function; friction; relaxation time

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