Numerical simulation for symmetric diffraction patterns of 8-hydroxyquinolin-1-ium 4-aminobenzenesulfonate

A. Ghanem; M. D. Zidan; M. S. EL-Daher; A. Allahham

doi:10.1007/s11801-022-1032-y

Optoelectronics Letters ›› 2022, Vol. 18 ›› Issue (5) : 283-287. DOI: 10.1007/s11801-022-1032-y

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Numerical simulation for symmetric diffraction patterns of 8-hydroxyquinolin-1-ium 4-aminobenzenesulfonate

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Abstract

We reported the formation of diffraction ring patterns induced by transmitted Gaussian laser beam through 8-hydroxyquinolin-1-ium 4-aminobenzenesulfonate (8HQABS) solution as absorbing medium. Theoretical model depending on the Fresnel-Kirchhoff diffraction (FKD) theory was used to generate diffraction rings with respect to the sample position. Analysis of the generated diffraction rings shows a reasonable agreement between the features of the experimental and numerical diffraction rings. Our results are considered to be useful to understand the way of propagation and interaction of laser beam with liquid absorbing medium.

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A. Ghanem, M. D. Zidan, M. S. EL-Daher, A. Allahham. Numerical simulation for symmetric diffraction patterns of 8-hydroxyquinolin-1-ium 4-aminobenzenesulfonate. Optoelectronics Letters, 2022, 18(5): 283‒287 https://doi.org/10.1007/s11801-022-1032-y

References

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[1]	KarimzadehR. Spatial self-phase modulation of a laser beam propagating through liquids with self-induced natural convection flow[J]. Journal of optics, 2002, 14: 095701 CrossRef Google scholar

[2]	MajlesA M H, AkheratdoostH, KoushkiE. Self-diffraction and high nonlinear optical properties of carbon nanotubes under CW and pulsed laser illumination[J]. Journal of molecular liquids, 2015, 206: 4-9 CrossRef Google scholar

[3]	EliasR S, HassanQ M A, SultanH A, et al.. Thermal nonlinearities for three curcuminoids measured by diffraction ring patterns and Z-scan under visible CW laser illumination[J]. Optics & laser technology, 2018, 107: 131-141 CrossRef Google scholar

[4]	ZidanM D, Al-KtaifaniM M, El-DaherM S, et al.. Diffraction ring patterns and nonlinear measurements of the tris(2′,2-bipyridyl) iron(II) tetrafluoroborate[J]. Optics & laser technology, 2020, 131: 106449 CrossRef Google scholar

[5]	CallenW R, HuthB G, PantellR H. Optical patterns of thermally self-defocused light[J]. Applied physics letters, 1967, 11: 103-105 CrossRef Google scholar

[6]	VillafrancaA B, SarayanamuttuK. Diffraction rings due to spatial self-phase modulation in a photopolymerizable medium[J]. Journal of optics A-pure and applied optics, 2009, 11: 125202 CrossRef Google scholar

[7]	ZamirA Z, KarimzadehR, MansourN. Thermo- optic properties and nonlinear responses of copper nanoparticles in polysiloxane oil[J]. Journal of optics, 2010, 12: 035212 CrossRef Google scholar

[8]	PillaV, MuninE, GesualdiM R R. Measurement of the thermo-optic coefficient in liquids by laser-induced conical diffraction and thermal lens techniques[J]. Journal of optics A-pure and applied optics, 2009, 11: 105201 CrossRef Google scholar

[9]	MaoZ, QiaoL, HeF, et al.. Thermal-induced nonlinear optical characteristics of ethanol solution doped with silver nanoparticles[J]. Chinese optics letters, 2009, 7: 949-952 CrossRef Google scholar

[10]	NeupaneT, TabibiB, SeoF J. Spatial self-phase modulation in WS₂ and MoS₂ atomic layers[J]. Optical materials express, 2020, 10: 831-842 CrossRef Google scholar

[11]	ZhangQ, ChengX, ZhanY, et al.. Optical limiting using spatial self-phase modulation in hot atomic sample[J]. Optics & laser technology, 2017, 88: 54-60 CrossRef Google scholar

[12]	MajlesA M H, SalmaniS, EsmaeilzadehM, et al.. Optical characterization of Erioglaucine using Z-scan technique, beam radius variations and diffraction pattern in far-field[J]. Current applied physics, 2009, 9: 885-889 CrossRef Google scholar

[13]	KoushkiE, FarzanehA, MousaviS H. Closed aperture Z-scan technique using the Fresnel-Kirchhoff diffraction theory for materials with high nonlinear refractions[J]. Applied physics B, lasers and optics, 2010, 99: 565-570 CrossRef Google scholar

[14]	ZidanM D, ArfanA, El-DaherM S, et al.. Synthesis and diffraction ring patterns of 8-hydroxy quinolin-1-ium4-amino-benzenesulfonate[J]. Optik, 2021, 223: 167439 CrossRef Google scholar

[15]	ZidanM D, AllafA W, AllahhamA, et al.. Nonlinear optical study of chromium tetrapyrrole dicarbonyl [Cr(CO)2(Pyrrole)4] complex[J]. Optik, 2020, 200: 163175 CrossRef Google scholar

[16]	GarciaR E V, ArroyoC M L, MendezO M M, et al.. Far field intensity distributions due to spatial self-phase modulation of a Gaussian beam by a thin nonlocal nonlinear media[J]. Optics express, 2010, 18: 22067-22079 CrossRef Google scholar

[17]	LiaoY, SongC, XiangY, et al.. Recent advances in spatial self-phase modulation with 2D materials and its applications[J]. Annalen der physik, 2020, 532: 2000322-2000350 CrossRef Google scholar

[18]	DengL, HeK, ZhouT, et al.. Formation and evolution of far-field diffraction patterns of divergent and convergent Gaussian beams passing through self-focusing and self-defocusing media[J]. Journal of optics A-pure and applied optics, 2005, 7: 409-415 CrossRef Google scholar