Analysis of Cavity–Waveguide Coupling in Two-Dimensional Photonic Crystals

Abstract: We investigate theoretically cavity-waveguide coupling in 2-D photonic crystals. In using photonic crystal cavities in a device such as an optical circuit, the cavities must be coupled to a waveguide. For optimum performance, careful design of the device structure is necessary. In order to find out the rule for the design, we evaluate coupling strength by carrying out finite-difference time-domain (FDTD) calculations with systematic variation of structural parameters. Results are interpreted in terms of the de… Show more

“…WGM is a type of wave that can travel around concave part which is the periphery of the circular resonator in the fabricated samples [20]. Because the circular resonator was formed by 18 shifted air holes, the standing wave of the WGM in the circular resonator has 9 waves [21]. When R is larger or r is smaller, the periphery of the circular resonator becomes larger.…”

1.3 µm lasing of circular defect cavity photonic crystal laser with an AlO<i>_x</i> cladding layer

“…WGM is a type of wave that can travel around concave part which is the periphery of the circular resonator in the fabricated samples [20]. Because the circular resonator was formed by 18 shifted air holes, the standing wave of the WGM in the circular resonator has 9 waves [21]. When R is larger or r is smaller, the periphery of the circular resonator becomes larger.…”

1.3 µm lasing of circular defect cavity photonic crystal laser with an AlO<i>_x</i> cladding layer

Theoretical investigation on communication bandwidth of an orthogonal symmetry-based photonic crystal waveguide for wavelength division multiplexing

Study of light behaviour in waveguides and cavities of photonic crystal based optical devices