Large optical spectral range dispersion engineered silicon-based photonic crystal waveguide modulator
- 16 May 2012
- journal article
- Published by Optica Publishing Group in Optics Express
- Vol. 20 (11) , 12318-12325
- https://doi.org/10.1364/oe.20.012318
Abstract
We present a dispersion engineered slow light silicon-based photonic crystal waveguide PIN modulator. Low-dispersion slow light transmission over 18nm bandwidth under the silica light line with a group index of 26.5 is experimentally confirmed. We investigate the variations of the modulator figure of merit, Vπ × L, as a function of the optical carrier wavelength over the bandwidth of the fundamental photonic crystal waveguide defect mode. A large signal operation with a record low maximum Vπ × L of 0.0464 V⋅mm over the low-dispersion optical spectral range is demonstrated. We also report the device operation at 2GHz.Keywords
This publication has 22 references indexed in Scilit:
- Photonic Crystal Silicon Optical Modulators: Carrier-Injection and Depletion at 10 Gb/sIEEE Journal of Quantum Electronics, 2011
- 10 Gb/s operation of photonic crystal silicon optical modulatorsOptics Express, 2011
- Electro-optic modulation in slotted resonant photonic crystal heterostructuresApplied Physics Letters, 2009
- Slow light with low dispersion and nonlinear enhancement in a lattice-shifted photonic crystal waveguideOptics Letters, 2009
- Slow-light enhanced collinear second-harmonic generation in two-dimensional photonic crystalsPhysical Review B, 2008
- High-speed low-voltage electro-optic modulator with a polymer-infiltrated silicon photonic crystal waveguideOptics Express, 2008
- 80 - micron interaction length silicon photonic crystal waveguide modulatorApplied Physics Letters, 2005
- Active control of slow light on a chip with photonic crystal waveguidesNature, 2005
- Photonic-crystal slow-light enhancement of nonlinear phase sensitivityJournal of the Optical Society of America B, 2002
- Extremely Large Group-Velocity Dispersion of Line-Defect Waveguides in Photonic Crystal SlabsPhysical Review Letters, 2001