Inversion of the Complex Refractive Index of Au-Ag Alloy Nanospheres Based on the Contour Intersection Method

The contour intersection method is a new method used to invert the complex refractive index of small particles. Research has yet to be reported on using this method to invert the complex refractive index of nanoparticles. This paper reports the feasibility and reliability of the contour intersection...

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Published inMaterials Vol. 16; no. 9; p. 3291
Main Authors Cheng, Long, Tuersun, Paerhatijiang, Ma, Dengpan, Wumaier, Dilishati, Li, Yixuan
Format Journal Article
LanguageEnglish
Published Switzerland MDPI AG 22.04.2023
MDPI
Subjects
Alloys
Analysis
Atmospheric aerosols
Au-Ag alloy nanospheres
Backscattering
complex refractive index
contour intersection method
Contours
Efficiency
Electromagnetic absorption
Equipment and supplies
Error analysis
Fiber optics
Gold
Gold base alloys
Iterative methods
Lasers
Light
Light scattering
Liu, Timothy
Mathematical analysis
Measurement methods
Methods
Mie scattering
Mie theory
Nanoalloys
Nanoparticles
Nanospheres
Nanotechnology
Optical properties
Particle size
Refractivity
Silver
Specialty metals industry
Spectrum analysis
Au-Ag alloy nanospheres
Mie theory
contour intersection method
complex refractive index
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Abstract The contour intersection method is a new method used to invert the complex refractive index of small particles. Research has yet to be reported on using this method to invert the complex refractive index of nanoparticles. This paper reports the feasibility and reliability of the contour intersection method in the inversion of the complex refractive index of nanoparticles using Au-Ag alloy nanospheres. The Mie theory and the size-dependent dielectric function are used to calculate the light scattering and absorption efficiency of Au-Ag alloy nanospheres corresponding to the complex refractive index. The complex refractive index of the particles is obtained by inversion with the contour intersection method. The backscattering efficiency constraint method is used to determine the unique solution when multiple valid solutions from the contour intersection method appear. The effects of the Au component percentage, particle size, and measurement errors on the inversion results are quantitatively analyzed. Finally, the inversion accuracy is compared and analyzed with the traditional iterative method. The results show that as long as the light scattering efficiency, light absorption efficiency, and backscattering efficiency of Au nanospheres can be measured, the accurate complex refractive index can also be calculated by inversion using the contour intersection method. The accuracy of the inversion results can be ensured when the measurement error is less than 5%. The results of inversion using the contour intersection method are better than those of the iterative methods under the same conditions. This study provides a simple and reliable inversion method for measuring the complex refractive index of Au-Ag alloy nanospheres.
AbstractList The contour intersection method is a new method used to invert the complex refractive index of small particles. Research has yet to be reported on using this method to invert the complex refractive index of nanoparticles. This paper reports the feasibility and reliability of the contour intersection method in the inversion of the complex refractive index of nanoparticles using Au-Ag alloy nanospheres. The Mie theory and the size-dependent dielectric function are used to calculate the light scattering and absorption efficiency of Au-Ag alloy nanospheres corresponding to the complex refractive index. The complex refractive index of the particles is obtained by inversion with the contour intersection method. The backscattering efficiency constraint method is used to determine the unique solution when multiple valid solutions from the contour intersection method appear. The effects of the Au component percentage, particle size, and measurement errors on the inversion results are quantitatively analyzed. Finally, the inversion accuracy is compared and analyzed with the traditional iterative method. The results show that as long as the light scattering efficiency, light absorption efficiency, and backscattering efficiency of Au nanospheres can be measured, the accurate complex refractive index can also be calculated by inversion using the contour intersection method. The accuracy of the inversion results can be ensured when the measurement error is less than 5%. The results of inversion using the contour intersection method are better than those of the iterative methods under the same conditions. This study provides a simple and reliable inversion method for measuring the complex refractive index of Au-Ag alloy nanospheres.
Audience Academic
Author Cheng, Long
Li, Yixuan
Wumaier, Dilishati
Tuersun, Paerhatijiang
Ma, Dengpan
AuthorAffiliation Xinjiang Key Laboratory for Luminescence Minerals and Optical Functional Materials, School of Physics and Electronic Engineering, Xinjiang Normal University, Urumqi 830054, China
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BackLink https://www.ncbi.nlm.nih.gov/pubmed/37176173$$D View this record in MEDLINE/PubMed
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Keywords Au-Ag alloy nanospheres
Mie theory
contour intersection method
complex refractive index
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RelatedPersons Liu, Timothy
RelatedPersons_xml – fullname: Liu, Timothy
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Snippet The contour intersection method is a new method used to invert the complex refractive index of small particles. Research has yet to be reported on using this...
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SubjectTerms Alloys
Analysis
Atmospheric aerosols
Au-Ag alloy nanospheres
Backscattering
complex refractive index
contour intersection method
Contours
Efficiency
Electromagnetic absorption
Equipment and supplies
Error analysis
Fiber optics
Gold
Gold base alloys
Iterative methods
Lasers
Light
Light scattering
Liu, Timothy
Mathematical analysis
Measurement methods
Methods
Mie scattering
Mie theory
Nanoalloys
Nanoparticles
Nanospheres
Nanotechnology
Optical properties
Particle size
Refractivity
Silver
Specialty metals industry
Spectrum analysis
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Title Inversion of the Complex Refractive Index of Au-Ag Alloy Nanospheres Based on the Contour Intersection Method
URI https://www.ncbi.nlm.nih.gov/pubmed/37176173
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https://pubmed.ncbi.nlm.nih.gov/PMC10179709
https://doaj.org/article/7328d9bbf8eb4e63893380131776842b
Volume 16
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