Chaotic dimension enhancement by optical injection into a semiconductor laser under feedback
Jingya Ruan, Sze-Chun Chan
Abstract
Optical injection into a chaotic laser under feedback is investigated for dimension enhancement. Although injecting a solitary laser is known to be low-dimensional, injecting the laser under feedback is found to enhance the correlation dimension D 2 in experiments. Using an exceptionally large data size with a very large reconstruction embedding dimension, efficient computation is enabled by averaging over many short segments to carefully estimate D 2 . The dimension enhancement can be achieved together with time-delay signature suppression. The enhancement of D 2 as a fundamental geometric quantifier of attractors is useful in applications of chaos.
Topics & Concepts
Dimension (graph theory)OpticsChaoticAttractorLaserEmbeddingPhysicsComputationSemiconductor laser theoryOptical chaosSignature (topology)Critical dimensionSemiconductorChaotic scatteringCorrelation dimensionNonlinear opticsLidarHénon mapChaos control and synchronizationNonlinear Dynamics and Pattern FormationNeural Networks and Reservoir Computing