Iron silicide photonic crystals and light propagation property

We present a qualitative study of the subdiffractive light beam propagation in photonic crystals, based on the theoretical analysis of full Maxwell equation system beyond the slowly varying envelope and paraxial approximations. We calculate the zero diffraction curve in the parameter space, we calcu

By using a tightly focused laser beam, we have studied light propagation in two-dimensional photonic crystals consisting of closed-packed hexagonal arrays of polystyrene particles with diameter of 1 ∼ 5 µm. The light propagation is found to depend strongly on the focal point positioning, the inciden

## Abstract It is emphasized that two‐dimensional photonic crystals (2D PC) have not only a great potential for the development of 2D nanophotonics in the inplane waveguided configuration, but that they may also open the way to other brilliant developments, with an extension to out‐of‐plane operati

Graded photonic crystals (GPhCs) have the remarkable ability to bend the path of light on the wavelength scale. A mirage effect has recently been reproduced experimentally in a two-dimensional structure made of metallic rods operating in the microwave regime (Akmansoy et al., 2008 [7]). This paper i

The molar heat capacities of FeSi and α-FeSi 2 have been determined by low-temperature adiabatic calorimetry at temperatures between T = 11 K and T = 400 K. From the heat capacity data the derived thermodynamic functions; standard molar enthalpy T 0 H o m , standard molar entropy T 0 S o m , and Gib

## Abstract It is possible by the application of voltage to control the local level in a one‐dimensional photonic crystal with a liquid crystal defect layer. In the present paper, a nematic liquid crystal is used and high‐speed switching is attempted on the basis of the shift of the localized state