By describing radiation losses through a Fourier space picture of modal couplings, low loss photonic crystal cavities are designed using a group theory-based analysis and finite difference time domain calculations, resulting in predicted quality factors exceeding 10^5
We propose and analyze a new photonic crystal cavity design that supports a dipole mode with a quali...
UnrestrictedTwo-dimensional photonic crystals represent a versatile technology platform for construc...
By creating different types of defects in the photonic crystal lattice, various nanophotonics compon...
By describing radiation losses through a Fourier space picture of modal couplings, low loss photonic...
Group-theoretical and Fourier space analyses are used to design low loss photonic crystal cavities. ...
Abstract: Building upon the results of recent work [1], we use momentum space design rules to invest...
The design of high quality factor (Q) optical cavities in two dimensional photonic crystal (PC) slab...
Building upon the results of recent work [1], we use momentum space design rules to investigate high...
We present a first-principles method to compute radiation properties of ultra-high quality factor ph...
Using the 3-D finite-difference time-domain (FDTD) method, we analyzed various designs of optical mi...
Photonic Crystal (PC) devices are the most exciting advancement in the field of photonics. The use o...
We express the quality factor of a mode in terms of the Fourier transforms of its field components a...
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...
Using a coupled mode theory and finite-difference time-domain calculations nearly complete evanescen...
We propose and analyze a new photonic crystal cavity design that supports a dipole mode with a quali...
UnrestrictedTwo-dimensional photonic crystals represent a versatile technology platform for construc...
By creating different types of defects in the photonic crystal lattice, various nanophotonics compon...
By describing radiation losses through a Fourier space picture of modal couplings, low loss photonic...
Group-theoretical and Fourier space analyses are used to design low loss photonic crystal cavities. ...
Abstract: Building upon the results of recent work [1], we use momentum space design rules to invest...
The design of high quality factor (Q) optical cavities in two dimensional photonic crystal (PC) slab...
Building upon the results of recent work [1], we use momentum space design rules to investigate high...
We present a first-principles method to compute radiation properties of ultra-high quality factor ph...
Using the 3-D finite-difference time-domain (FDTD) method, we analyzed various designs of optical mi...
Photonic Crystal (PC) devices are the most exciting advancement in the field of photonics. The use o...
We express the quality factor of a mode in terms of the Fourier transforms of its field components a...
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...
Using a coupled mode theory and finite-difference time-domain calculations nearly complete evanescen...
We propose and analyze a new photonic crystal cavity design that supports a dipole mode with a quali...
UnrestrictedTwo-dimensional photonic crystals represent a versatile technology platform for construc...
By creating different types of defects in the photonic crystal lattice, various nanophotonics compon...