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Improved ellipse-fitting phase demodulation technique to suppress the effect of light source intensity noise in interferometric system

Chongxu Fang, Jinhui Shi, Zhenyu Fu, Wen Zhou, Jihao Zhang, Yuanfei Gong, Dong Guang, Shengquan Mu, Cheng Zuo, Xuqiang Wu, Mingyuan Zhou, Benli Yu

2023Optics Letters22 citationsDOI

Abstract

An improved ellipse-fitting algorithm phase demodulation (EFAPD) technique is proposed to reduce the influence of light source intensity noise on a system. In the original EFAPD, the sum of the intensities of coherent light (ICLS) is an important part of the interference signal noise, which makes the demodulation results suffer. The improved EFAPD corrects the ICLS and fringe contrast quantity of the interference signal by an ellipse-fitting algorithm, and then calculates the ICLS based on the structure of pull-cone 3 × 3 coupler, so as to remove it in the algorithm. Experimental results show that the noise of the improved EFAPD system is significantly reduced compared with that of the original EFAPD, with a maximum reduction of 35.57 dB. The improved EFAPD makes up for the deficiency of the original EFAPD in suppressing light source intensity noise, and promotes the application and popularization of EFAPD.

Topics & Concepts

DemodulationEllipseOpticsInterference (communication)Noise (video)SIGNAL (programming language)Phase (matter)InterferometryIntensity (physics)PhysicsPhase noiseLight intensityNoise reductionComputer scienceAcousticsTelecommunicationsArtificial intelligenceChannel (broadcasting)Quantum mechanicsAstronomyImage (mathematics)Programming languageOptical measurement and interference techniquesAdvanced Fiber Optic SensorsOptical Coherence Tomography Applications
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