167 research outputs found
Ultrafast Optical Signal Processing with Bragg Structures
The phase, amplitude, speed, and polarization, in addition to many other
properties of light, can be modulated by photonic Bragg structures. In
conjunction with nonlinearity and quantum effects, a variety of ensuing micro-
or nano-photonic applications can be realized. This paper reviews various
optical phenomena in several exemplary 1D Bragg gratings. Important examples
are resonantly absorbing photonic structures, chirped Bragg grating, and
cholesteric liquid crystals; their unique operation capabilities and key issues
are considered in detail. These Bragg structures are expected to be used in
wide-spread applications involving light field modulations, especially in the
rapidly advancing field of ultrafast optical signal processing.Comment: To be published in a special issue of journal Applied Sciences, on
the topic of Guided-Wave Optic
Frequency and phase locking of laser cavity solitons
Self-localized states or dissipative solitons have the freedom of translation in systems with a homogeneous background. When compared to cavity solitons in coherently driven nonlinear optical systems, laser cavity solitons have the additional freedom of the optical phase. We explore the consequences of this additional Goldstone mode and analyse experimentally and numerically frequency and phase locking of laser cavity solitons in a vertical-cavity surface-emitting laser with frequency-selective feedback. Due to growth-related variations of the cavity resonance, the translational symmetry is usually broken in real devices. Pinning to different defects means that separate laser cavity solitons have different frequencies and are mutually incoherent. If two solitons are close to each other, however, their interaction leads to synchronization due to phase and frequency locking with strong similarities to the Adler-scenario of coupled oscillators
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