## What is/are Isotropic Chiral?

Isotropic Chiral - Upon interaction with isotropic chiral media, such chirality-structured light effectively creates chiral emitters of opposite handedness, located at different positions in space.^{[1]}This article is devoted to the study of the possibilities of increasing spectral efficiency in MIMO systems by using antennas with substrates of biisotropic and bianisotropic chiral metamaterials and various types of fractal emitters, in particular, fractal structures in the form of a Sierpinski triangle, Koch and Gilbert curves, as well as a dipole triangular antenna of complex configuration FRM.

^{[2]}The spherical geometry consists of an electrically radially uni-axial chiral sphere with dispersive chiral coating and is placed in an unbounded loss-less isotropic chiral medium.

^{[3]}Here, we propose to realize unconventional Weyl exceptional contours in photonic continua—non-Hermitian anisotropic chiral plasma, based on ab initio calculation by Maxwell’s equations.

^{[4]}Recent work predicted the existence of isotropic chiral phonon dispersion relations of the lowest bands connected to isotropic acoustical activity in cubic crystalline approximants of three-dimensional (3D) chiral icosahedral metamaterial quasi-crystals.

^{[5]}Sum topological charges of the circularly polarized components of a beam, generated in the bulk of an isotropic chiral medium by elliptically polarized fundamental beams with arbitrary transverse structure, are found.

^{[6]}For this a bi-isotropic chiral sphere coated with chiral metamaterial embedded in free space is considered.

^{[7]}Sum-frequency generation in the case of coaxial interaction of elliptically polarized Gaussian beams of fundamental radiation in isotropic chiral medium was studied.

^{[8]}ABSTRACT A perfect electrically conducting (PEC) cylinder (having a circular cross-section) encapsulated with uniaxial anisotropic chiral medium was studied emphasizing the features of scattering.

^{[9]}A mathematical model of MSA with a biisotropic chiral substrate is shown on the basis of the mathematical apparatus of singular integral equations (SIE), whose numerical solution belongs to the class of well-posed mathematical problems.

^{[10]}The propagation of electromagnetic surface waves guided by the planar interface of two isotropic chiral materials, namely materials A and B, was investigated by numerically solving the associated canonical boundary-value problem.

^{[11]}A flexible liquid-crystalline trimer in the optically isotropic chiral conglomerate phase catalyzes the direct aldol reaction of acetone with benzaldehyde.

^{[12]}The geometrical optics approximation (GOA) method is extended to the forward light scattering of a large-sized isotropic chiral medium (ICM) spherical particle illuminated by a polarized plane wave.

^{[13]}In this work, we propose a kind of active chiral metamaterial absorber (ACMA) composed by planar anisotropic chiral metamaterials (PACMs) and a metal layer.

^{[14]}Phase diagrams of the surface electromagnetic waves in isotropic chiral metamaterials in contact with either the vacuum or metal are presented over a wide range of permittivity, permeability, and chiral parameters.

^{[15]}

## isotropic chiral medium

Upon interaction with isotropic chiral media, such chirality-structured light effectively creates chiral emitters of opposite handedness, located at different positions in space.^{[1]}The spherical geometry consists of an electrically radially uni-axial chiral sphere with dispersive chiral coating and is placed in an unbounded loss-less isotropic chiral medium.

^{[2]}Sum topological charges of the circularly polarized components of a beam, generated in the bulk of an isotropic chiral medium by elliptically polarized fundamental beams with arbitrary transverse structure, are found.

^{[3]}Sum-frequency generation in the case of coaxial interaction of elliptically polarized Gaussian beams of fundamental radiation in isotropic chiral medium was studied.

^{[4]}ABSTRACT A perfect electrically conducting (PEC) cylinder (having a circular cross-section) encapsulated with uniaxial anisotropic chiral medium was studied emphasizing the features of scattering.

^{[5]}The geometrical optics approximation (GOA) method is extended to the forward light scattering of a large-sized isotropic chiral medium (ICM) spherical particle illuminated by a polarized plane wave.

^{[6]}

## isotropic chiral metamaterial

This article is devoted to the study of the possibilities of increasing spectral efficiency in MIMO systems by using antennas with substrates of biisotropic and bianisotropic chiral metamaterials and various types of fractal emitters, in particular, fractal structures in the form of a Sierpinski triangle, Koch and Gilbert curves, as well as a dipole triangular antenna of complex configuration FRM.^{[1]}In this work, we propose a kind of active chiral metamaterial absorber (ACMA) composed by planar anisotropic chiral metamaterials (PACMs) and a metal layer.

^{[2]}Phase diagrams of the surface electromagnetic waves in isotropic chiral metamaterials in contact with either the vacuum or metal are presented over a wide range of permittivity, permeability, and chiral parameters.

^{[3]}