Optically thin dielectric slabs, in which a fully etched through two-dimensional patterning is applied, can be used to form high-Q optical cavities with modal volumes approaching the theoretical limit of a cubic half-wavelength. A cavity design strategy based upon simple group theoretical techniques is presented in which emphasis is placed upon a momentum space description of the resonant modes. It is shown that photonic crystal laser cavities can be designed with a particular wavelength, polarization, and radiation pattern using these methods
Photonic crystal cavities enable strong light–matter interactions, with numerous applications, such ...
By describing radiation losses through a Fourier space picture of modal couplings, low loss photonic...
We propose and analyze a new photonic crystal cavity design that supports a dipole mode with a quali...
Optically thin dielectric slabs, in which a fully etched through two-dimensional patterning is appli...
Optically thin dielectric slabs, in which a fully etched through two-dimensional patterning is appli...
Optically thin dielectric slabs, in which a fully etched-through two-dimensional patterning is appli...
The design of high quality factor (Q) optical cavities in two dimensional photonic crystal (PC) slab...
Far-field measurements of the in-plane polarization properties of spontaneous emission from optical ...
Group-theoretical and Fourier space analyses are used to design low loss photonic crystal cavities. ...
Planar photonic crystals are constructed by combining two-dimensional periodic structures with high ...
Using the 3-D finite-difference time-domain (FDTD) method, we analyzed various designs of optical mi...
This thesis report is submitted in partial fulfillment of the requirements for the degree of Bachelo...
In this work we form a microcavity laser using two-dimensional photonic crystals embedded in a half ...
By creating different types of defects in the photonic crystal lattice, various nanophotonics compon...
The engineering of electromagnetic modes at optical frequencies in artificial dielectric structure...
Photonic crystal cavities enable strong light–matter interactions, with numerous applications, such ...
By describing radiation losses through a Fourier space picture of modal couplings, low loss photonic...
We propose and analyze a new photonic crystal cavity design that supports a dipole mode with a quali...
Optically thin dielectric slabs, in which a fully etched through two-dimensional patterning is appli...
Optically thin dielectric slabs, in which a fully etched through two-dimensional patterning is appli...
Optically thin dielectric slabs, in which a fully etched-through two-dimensional patterning is appli...
The design of high quality factor (Q) optical cavities in two dimensional photonic crystal (PC) slab...
Far-field measurements of the in-plane polarization properties of spontaneous emission from optical ...
Group-theoretical and Fourier space analyses are used to design low loss photonic crystal cavities. ...
Planar photonic crystals are constructed by combining two-dimensional periodic structures with high ...
Using the 3-D finite-difference time-domain (FDTD) method, we analyzed various designs of optical mi...
This thesis report is submitted in partial fulfillment of the requirements for the degree of Bachelo...
In this work we form a microcavity laser using two-dimensional photonic crystals embedded in a half ...
By creating different types of defects in the photonic crystal lattice, various nanophotonics compon...
The engineering of electromagnetic modes at optical frequencies in artificial dielectric structure...
Photonic crystal cavities enable strong light–matter interactions, with numerous applications, such ...
By describing radiation losses through a Fourier space picture of modal couplings, low loss photonic...
We propose and analyze a new photonic crystal cavity design that supports a dipole mode with a quali...