Add to ORKGWe present a general scheme to trap slow-light in a photonic crystal slab and achieve high Q/V ratio with a fabrication tolerant design, well suited for low-threshold microlasers and cavity quantum electrodynamics.2 page(s
The second volume of the book concerns the characterization approach of photonic crystals, photonic ...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Physics, 2000.Includes bibliographic...
This book discusses design, modeling, and the characterization of slow-light photonic crystal wavegu...
8 pages, 4 figuresInternational audiencePhysical mechanisms involved in the light confinement in pho...
Slow light with a remarkably low group velocity is a promising solution for buffering and time-domai...
We study the confinement of low group velocity band-edge modes in a photonic crystal slab. We use a ...
We propose a general approach to the design of directional couplers in photonic-crystals operating i...
International audienceIn the present paper, we propose an approach based on slow Bloch mode microcav...
The phenomenon of slow light is discussed, with a focus on slow light structures based on photonic c...
The physical principles behind the phenomenon of slow light in photonic crystal waveguides, as well ...
We discuss the enhancement of nonlinear functionalities in slow light photonic crystals. We show how...
Coupling of external light signals into a photonic crystal waveguide becomes increasingly inefficien...
We recently proposed two-dimensional coupled photonic crystal microcavity arrays as a route to achie...
The slow light effect in a photonic crystal waveguide is investigated theoretically and experimental...
We present the design, theory and experimental implementation of a low modal volume microlaser based...
The second volume of the book concerns the characterization approach of photonic crystals, photonic ...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Physics, 2000.Includes bibliographic...
This book discusses design, modeling, and the characterization of slow-light photonic crystal wavegu...
8 pages, 4 figuresInternational audiencePhysical mechanisms involved in the light confinement in pho...
Slow light with a remarkably low group velocity is a promising solution for buffering and time-domai...
We study the confinement of low group velocity band-edge modes in a photonic crystal slab. We use a ...
We propose a general approach to the design of directional couplers in photonic-crystals operating i...
International audienceIn the present paper, we propose an approach based on slow Bloch mode microcav...
The phenomenon of slow light is discussed, with a focus on slow light structures based on photonic c...
The physical principles behind the phenomenon of slow light in photonic crystal waveguides, as well ...
We discuss the enhancement of nonlinear functionalities in slow light photonic crystals. We show how...
Coupling of external light signals into a photonic crystal waveguide becomes increasingly inefficien...
We recently proposed two-dimensional coupled photonic crystal microcavity arrays as a route to achie...
The slow light effect in a photonic crystal waveguide is investigated theoretically and experimental...
We present the design, theory and experimental implementation of a low modal volume microlaser based...
The second volume of the book concerns the characterization approach of photonic crystals, photonic ...
Thesis (Ph.D.)--Massachusetts Institute of Technology, Dept. of Physics, 2000.Includes bibliographic...
This book discusses design, modeling, and the characterization of slow-light photonic crystal wavegu...