Pulse rate multiplier based on the temporal Talbot effect in birefringent optical filters

Youcef Driouche; Rachid Hamdi; Leila Graini; Abderezzaq Halassi; Badr Eddine Benkelfat

doi:10.1364/JOSAA.452327

Pulse rate multiplier based on the temporal Talbot effect in birefringent optical filters

Youcef Driouche
, Rachid Hamdi
, Leila Graini
, Abderezzaq Halassi
, Badr Eddine Benkelfat

Research output: Contribution to journal › Article › peer-review

Abstract

In this paper,we propose a novel approach to implement a pulse rate multiplier based on the temporal self-imaging effect using, for the first time to our knowledge, a birefringent optical filter. The proposed filter, with periodic quadratic phase-only filtering induced through engineered polarization mode dispersion, contains N-stage hybrid birefringent crystals set between an input polarizer and an analyzer. Each stage is composed of an identical section and a variable section. An optimization algorithm is used to determine the opto-geometrical parameters of the filter. Preliminary results for 10-stage, 12-stage, 16-stage, and 20-stage birefringent filters show very high fidelity for multiplying a 10 GHz input pulse rate by factors of two, four, six, and eight, respectively, without distorting the individual pulse properties.

Original language	English
Pages (from-to)	682-689
Number of pages	8
Journal	Journal of the Optical Society of America A: Optics and Image Science, and Vision
Volume	39
Issue number	4
DOIs	https://doi.org/10.1364/JOSAA.452327
Publication status	Published - 1 Apr 2022

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title = "Pulse rate multiplier based on the temporal Talbot effect in birefringent optical filters",

abstract = "In this paper,we propose a novel approach to implement a pulse rate multiplier based on the temporal self-imaging effect using, for the first time to our knowledge, a birefringent optical filter. The proposed filter, with periodic quadratic phase-only filtering induced through engineered polarization mode dispersion, contains N-stage hybrid birefringent crystals set between an input polarizer and an analyzer. Each stage is composed of an identical section and a variable section. An optimization algorithm is used to determine the opto-geometrical parameters of the filter. Preliminary results for 10-stage, 12-stage, 16-stage, and 20-stage birefringent filters show very high fidelity for multiplying a 10 GHz input pulse rate by factors of two, four, six, and eight, respectively, without distorting the individual pulse properties.",

author = "Youcef Driouche and Rachid Hamdi and Leila Graini and Abderezzaq Halassi and Benkelfat, \{Badr Eddine\}",

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AU - Driouche, Youcef

AU - Hamdi, Rachid

AU - Graini, Leila

AU - Halassi, Abderezzaq

AU - Benkelfat, Badr Eddine

PY - 2022/4/1

Y1 - 2022/4/1

N2 - In this paper,we propose a novel approach to implement a pulse rate multiplier based on the temporal self-imaging effect using, for the first time to our knowledge, a birefringent optical filter. The proposed filter, with periodic quadratic phase-only filtering induced through engineered polarization mode dispersion, contains N-stage hybrid birefringent crystals set between an input polarizer and an analyzer. Each stage is composed of an identical section and a variable section. An optimization algorithm is used to determine the opto-geometrical parameters of the filter. Preliminary results for 10-stage, 12-stage, 16-stage, and 20-stage birefringent filters show very high fidelity for multiplying a 10 GHz input pulse rate by factors of two, four, six, and eight, respectively, without distorting the individual pulse properties.

AB - In this paper,we propose a novel approach to implement a pulse rate multiplier based on the temporal self-imaging effect using, for the first time to our knowledge, a birefringent optical filter. The proposed filter, with periodic quadratic phase-only filtering induced through engineered polarization mode dispersion, contains N-stage hybrid birefringent crystals set between an input polarizer and an analyzer. Each stage is composed of an identical section and a variable section. An optimization algorithm is used to determine the opto-geometrical parameters of the filter. Preliminary results for 10-stage, 12-stage, 16-stage, and 20-stage birefringent filters show very high fidelity for multiplying a 10 GHz input pulse rate by factors of two, four, six, and eight, respectively, without distorting the individual pulse properties.

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DO - 10.1364/JOSAA.452327

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Pulse rate multiplier based on the temporal Talbot effect in birefringent optical filters

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