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Principles Of Optics Electromagnetic Theory Of Propagation Interference And Diffraction Of Light

Advanced Mathematical Methods for Scientists and Engineers

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Introduction To Electrodynamics

This paper presents a review of definitions of fractional order derivatives and integrals that appear in mathematics, physics, and engineering.

/pdf/a-review-of-definitions-for-fractional-derivatives-and-1i2f6bcvo4.pdf

A Review of Definitions for Fractional Derivatives and Integral

https://theory.sinp.msu.ru/~tarasov/PDF/AP2008.pdf

Fractional vector calculus and fractional Maxwell’s equations

Quasi-static analysis of scattering from a radially uniaxial dielectric sphere in fractional space

A plasma sheath can significantly alter the electromagnetic properties of an object, which leads to many practical applications. In this article, the electromagnetic scattering properties of a DB metamaterial cylinder coated with unmagnetized plasma are presented. The effects of layer thickness, non-uniform cladding (eccentric coating), electron number density, electron-neutral collision frequency and the frequency of incident wave on radar cross-section (RCS) of the object are discussed. It is found that the RCS of the DB metamaterial objects can be reduced or enhanced by appropriate values of plasma parameters, thickness or eccentricity. The anomalous behavior of backscattering cross-section of plasma coated DB cylinder has been observed at frequencies near plasma frequency. The results may serve as a noteworthy reference for experimentalists working in plasma stealth technology for metamaterials.

Study of the Effects of Eccentric Plasma Coating over Metamaterial Cylinder

Two dimensional cylindrical wave expansion method is used to analyze the cylindrical invisible nihility cloak. Ideal model of the cloak is set up to solve the problem and it is observed that a perfect equivalence with the ideal situation of the cloak can be achieved by using nihility medium at perturbed void region of the geometry. Also it is observed that the use of nihility medium at ?, the convergence rate is independent of the type of incident field. Both the transverse electric (TE) and transverse magnetic (TM) cases have been discussed.

Incorporation of The Nihility Medium to Improve The Cylindrical Invisibility Cloak

We derive integral representations suitable for studying the focusing of electromagnetic waves through a symmetrically hyperbolic focusing lens into uniaxial crystal in the presence of cylindrical and coma aberrations using Maslov's method. The uniaxial crystal used is the negative crystal LiNbO3. Numerical computations are made to obtain the results for focused flelds inside negative uniaxial crystal with several difierent orientations of the optical axis in the plane of incidence. The efiects of aberrations inside uniaxial crystal and isotropic medium are also noted. The results are compared with those obtained by Kirchhofi-Huygens integral and Maslov's method which are in good agreement.

/pdf/focusing-of-electromagnetic-wave-from-hyperbolic-lens-into-a-1ag9bbiqi9.pdf

Focusing of Electromagnetic Wave from Hyperbolic Lens into a Uniaxial Crystal with an Arbitrary Orientation of the Optical Axis in the Presence of Aberrations

Qaisar Abbas Naqvi

Papers

Quasi-static analysis of scattering from a radially uniaxial dielectric sphere in fractional space

Study of the Effects of Eccentric Plasma Coating over Metamaterial Cylinder

Incorporation of The Nihility Medium to Improve The Cylindrical Invisibility Cloak

Focusing of Electromagnetic Wave from Hyperbolic Lens into a Uniaxial Crystal with an Arbitrary Orientation of the Optical Axis in the Presence of Aberrations

Surface wave modes in PEMC backed chiral slab