Controlling a chaotic anti-synchronized oscillator by a phase interplayed optical injected seed with an FBG sensor

Abstract: In this simmulation study, a fiber Bragg grating (FBG) sensor is used to partially separat a signal emitted from a laser diode (LD1), which is originally modulated with a noise source. Separation done into two parts; reflected, in which a phase is interpayed (similarly to Michelson interferometry) in order to make it differ than that passed without reflection. The two separated signals, remixed agin with themselves and additionally add to a third signal came from second laser diode (LD2), which is also modulat… Show more

“…Furthermore, the FBG sensor itself has recently been continuously enriched by research due to its applications in optical communications [5], such as smart frequency filtering [5], [6], [7], dynamical encrypting with chaotic communications [8], [9], [10], [11].…”

Effect of GeO2 Dopants in FBG Sensor Performance for Temperature and Strain

“…Furthermore, the FBG sensor itself has recently been continuously enriched by research due to its applications in optical communications [5], such as smart frequency filtering [5], [6], [7], dynamical encrypting with chaotic communications [8], [9], [10], [11].…”

Effect of GeO2 Dopants in FBG Sensor Performance for Temperature and Strain

Simulating chaotic dynamics with variable polarisation of VCSEL twin lasers using FBG as a dynamic sensor

Experimental diagnose for spikes width relation with positive optoelectronic feedback attenuation in a quantum well laser diode