Using the 3-D finite-difference time-domain (FDTD) method, we analyzed various designs of optical microcavities based on a thin semiconductor membrane perforated with a hexagonal lattice of air holes. The microcavities consisted of single or multiple lattice defects formed by increasing or decreasing radii of air holes, thereby producing acceptor or donor-like defect states. The analyzed geometries include single acceptor or donor defects, as well as ring, hexagonal and triangular cavities. Properties of these structures (excluding single donor-type defect) have not been analyzed previously in a slab of finite thickness. Frequencies, quality factors and radiation patterns of localized defect modes were analyzed as a function of parameters o...
The manufacture of a photonic crystal always produce deviations from the ideal case. In this paper w...
Two numerical techniques for analysis of defect modes in photonic crystals are presented. Based on t...
In this work we form a microcavity laser using two-dimensional photonic crystals embedded in a half ...
Using the 3-D finite-difference time-domain (FDTD) method, we analyzed various designs of optical mi...
Group-theoretical and Fourier space analyses are used to design low loss photonic crystal cavities. ...
We discuss the optimization of optical microcavity designs based on two-dimensional photonic crystal...
Optically thin dielectric slabs, in which a fully etched-through two-dimensional patterning is appli...
Photonic crystal microcavities are defined by the spatial arrangement of materials. In the analysis ...
Optically thin dielectric slabs, in which a fully etched through two-dimensional patterning is appli...
We proposed an effective index perturbation method to investigate the intrinsic characteristics of t...
Optically thin dielectric slabs, in which a fully etched through two-dimensional patterning is appli...
Photonic Crystal (PC) devices are the most exciting advancement in the field of photonics. The use o...
By describing radiation losses through a Fourier space picture of modal couplings, low loss photonic...
We report the optimisation of optical properties of single defects in three-dimensional (3D) face-ce...
The engineering of electromagnetic modes at optical frequencies in artificial dielectric structure...
The manufacture of a photonic crystal always produce deviations from the ideal case. In this paper w...
Two numerical techniques for analysis of defect modes in photonic crystals are presented. Based on t...
In this work we form a microcavity laser using two-dimensional photonic crystals embedded in a half ...
Using the 3-D finite-difference time-domain (FDTD) method, we analyzed various designs of optical mi...
Group-theoretical and Fourier space analyses are used to design low loss photonic crystal cavities. ...
We discuss the optimization of optical microcavity designs based on two-dimensional photonic crystal...
Optically thin dielectric slabs, in which a fully etched-through two-dimensional patterning is appli...
Photonic crystal microcavities are defined by the spatial arrangement of materials. In the analysis ...
Optically thin dielectric slabs, in which a fully etched through two-dimensional patterning is appli...
We proposed an effective index perturbation method to investigate the intrinsic characteristics of t...
Optically thin dielectric slabs, in which a fully etched through two-dimensional patterning is appli...
Photonic Crystal (PC) devices are the most exciting advancement in the field of photonics. The use o...
By describing radiation losses through a Fourier space picture of modal couplings, low loss photonic...
We report the optimisation of optical properties of single defects in three-dimensional (3D) face-ce...
The engineering of electromagnetic modes at optical frequencies in artificial dielectric structure...
The manufacture of a photonic crystal always produce deviations from the ideal case. In this paper w...
Two numerical techniques for analysis of defect modes in photonic crystals are presented. Based on t...
In this work we form a microcavity laser using two-dimensional photonic crystals embedded in a half ...