Add to ORKGWe present a coupled-dipole treatment of radiation dynamics in the weak-coupling regime in a finite three-dimensional photonic crystal structure. The structure is discretized in real space and the self-consistent local field is computed. We illustrate the computation of radiation dynamics by calculating the spontaneous emission rate for a source located in a defect cavity inside a slab photonic crystal structure. We compute the cavity spectral response, the near-field modal structure, and the far-field radiation pattern of the microcavity. We also discuss our results in light of the recent experimental near-field observations of the optical modes of a photonic crystal microcavity
We present the detailed analysis of the spontaneous emission coupling factor (β factor) of the micro...
A three-dimensional (3D) photonic band gap crystal is an ideal tool to completely inhibit the local ...
We analyze coupled optical defect cavities realized in finite one-dimensional photonic crystals (PC)...
Abstract — We present a general method for the factor calculation in optical microcavities. The ana...
The radiation dynamics of a dipole antenna embedded in a Photonic Crystal are modeled by an initiall...
We show theoretically that photonic crystal membranes cause large variations in the spontaneous emis...
We experimentally investigate the out-of-plane radiation losses of photonic crystal coupled-cavity w...
Since the very first proposition of photonic crystals, their influence on the dynamics of spontaneou...
The concept of a plane scatterer that was developed earlier for scalar waves is generalized so that ...
We show theoretically that two-dimensional (2D) photonic crystals in semiconductor membranes strongl...
The concept of a plane scatterer that was developed earlier for scalar waves is generalized so that ...
A structured environment such as a photonic crystal can strongly affect radiative properties of an a...
We present a simple, efficient procedure to compute the spontaneous-emission rate from short-time fi...
International audienceIn this paper, we present a numerical study (using FiniteDifference Times Doma...
We present a general method for the β factor calculation in optical microcavities. The analysis is b...
We present the detailed analysis of the spontaneous emission coupling factor (β factor) of the micro...
A three-dimensional (3D) photonic band gap crystal is an ideal tool to completely inhibit the local ...
We analyze coupled optical defect cavities realized in finite one-dimensional photonic crystals (PC)...
Abstract — We present a general method for the factor calculation in optical microcavities. The ana...
The radiation dynamics of a dipole antenna embedded in a Photonic Crystal are modeled by an initiall...
We show theoretically that photonic crystal membranes cause large variations in the spontaneous emis...
We experimentally investigate the out-of-plane radiation losses of photonic crystal coupled-cavity w...
Since the very first proposition of photonic crystals, their influence on the dynamics of spontaneou...
The concept of a plane scatterer that was developed earlier for scalar waves is generalized so that ...
We show theoretically that two-dimensional (2D) photonic crystals in semiconductor membranes strongl...
The concept of a plane scatterer that was developed earlier for scalar waves is generalized so that ...
A structured environment such as a photonic crystal can strongly affect radiative properties of an a...
We present a simple, efficient procedure to compute the spontaneous-emission rate from short-time fi...
International audienceIn this paper, we present a numerical study (using FiniteDifference Times Doma...
We present a general method for the β factor calculation in optical microcavities. The analysis is b...
We present the detailed analysis of the spontaneous emission coupling factor (β factor) of the micro...
A three-dimensional (3D) photonic band gap crystal is an ideal tool to completely inhibit the local ...
We analyze coupled optical defect cavities realized in finite one-dimensional photonic crystals (PC)...