Affirming nonlinear optical coefficient constancy from z-scan measurement

Shijia Hua; Kang Du; Heng Wang; Wending Zhang; Ting Mei; Elhadj Dogheche

doi:10.3788/COL202018.071903

Affirming nonlinear optical coefficient constancy from z-scan measurement

Shijia Hua, Kang Du, Heng Wang, Wending Zhang, Ting Mei, Elhadj Dogheche

School of Physical Science and Technology

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

5 Scopus citations

Abstract

Goodness of fit is demonstrated for theoretical calculation of z-scan data based on beams propagating in the nonlinear medium and the Fresnel-Kirchhoff diffraction integral in experiments with high nonlinear refraction and absorption. The constancy of nonlinear optical parameters is achieved regardless of sample thickness and laser intensity, which clarifies the physical significance of optical parameters. We have obtained γ = 2.0 × 10^-19 m²/W and β = 5.0 × 10^-13 m/W for carbon disulfide excited by a pulsed laser at 800 nm with pulse duration of 35 fs, which are independent of sample thickness and laser intensity. Affirming constancy of the extracted parameters to the incident light intensity may become a practice to verify the goodness of the z-scan experiment.

Original language	English
Article number	071903
Journal	Chinese Optics Letters
Volume	18
Issue number	7
DOIs	https://doi.org/10.3788/COL202018.071903
State	Published - 10 Jul 2020

Keywords

Carbon disulfide
Nonlinear optical coefficient
Nonlinear refraction and absorption
Z-scan technique

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title = "Affirming nonlinear optical coefficient constancy from z-scan measurement",

abstract = "Goodness of fit is demonstrated for theoretical calculation of z-scan data based on beams propagating in the nonlinear medium and the Fresnel-Kirchhoff diffraction integral in experiments with high nonlinear refraction and absorption. The constancy of nonlinear optical parameters is achieved regardless of sample thickness and laser intensity, which clarifies the physical significance of optical parameters. We have obtained γ = 2.0 × 10-19 m2/W and β = 5.0 × 10-13 m/W for carbon disulfide excited by a pulsed laser at 800 nm with pulse duration of 35 fs, which are independent of sample thickness and laser intensity. Affirming constancy of the extracted parameters to the incident light intensity may become a practice to verify the goodness of the z-scan experiment.",

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T1 - Affirming nonlinear optical coefficient constancy from z-scan measurement

AU - Hua, Shijia

AU - Du, Kang

AU - Wang, Heng

AU - Zhang, Wending

AU - Mei, Ting

AU - Dogheche, Elhadj

PY - 2020/7/10

Y1 - 2020/7/10

N2 - Goodness of fit is demonstrated for theoretical calculation of z-scan data based on beams propagating in the nonlinear medium and the Fresnel-Kirchhoff diffraction integral in experiments with high nonlinear refraction and absorption. The constancy of nonlinear optical parameters is achieved regardless of sample thickness and laser intensity, which clarifies the physical significance of optical parameters. We have obtained γ = 2.0 × 10-19 m2/W and β = 5.0 × 10-13 m/W for carbon disulfide excited by a pulsed laser at 800 nm with pulse duration of 35 fs, which are independent of sample thickness and laser intensity. Affirming constancy of the extracted parameters to the incident light intensity may become a practice to verify the goodness of the z-scan experiment.

AB - Goodness of fit is demonstrated for theoretical calculation of z-scan data based on beams propagating in the nonlinear medium and the Fresnel-Kirchhoff diffraction integral in experiments with high nonlinear refraction and absorption. The constancy of nonlinear optical parameters is achieved regardless of sample thickness and laser intensity, which clarifies the physical significance of optical parameters. We have obtained γ = 2.0 × 10-19 m2/W and β = 5.0 × 10-13 m/W for carbon disulfide excited by a pulsed laser at 800 nm with pulse duration of 35 fs, which are independent of sample thickness and laser intensity. Affirming constancy of the extracted parameters to the incident light intensity may become a practice to verify the goodness of the z-scan experiment.

KW - Carbon disulfide

KW - Nonlinear optical coefficient

KW - Nonlinear refraction and absorption

KW - Z-scan technique

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JO - Chinese Optics Letters

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Affirming nonlinear optical coefficient constancy from z-scan measurement

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