Sanchita Roy scite author profile

Sanchita Roy

5Publications

16Citation Statements Received

17Citation Statements Given

How they've been cited

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Affiliations

University of Science and Technology, Meghalaya, Tezpur University

Publications

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Size dependent optical characterization of semiconductor particle: CdS embedded in polymer matrix

2010

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We report the optical investigation and analysis of both nano-sized and micrometer size Cadmium Sulphide particles which is embedded in a transparent polyvinyl alcohol (PVOH) dielectric host material. A designed and fabricated laser based light scattering system using a He-Ne laser of wavelength 632.8nm was used for the measurement and study of the scattering properties of the particles as a function of the scattering angle at this wavelength. An attempt was made to experimentally determine the most significant elements of the Mueller scattering matrix using combinations of randomly and linearly polarized incident laser beam and subsequent analyzers in corresponding orientations. The analysis of the experimental data was done by the method of comparison with theoretically generated data. Novel computational technique, involving single scattering for spherical particles using Mie-theory, was developed and applied. The theoretical data was found to be in good agreement with the experimental data within an acceptable margin of error. The results have proved that the combination of the experimental setup and associated computational method is a highly efficient and reliable in-situ system for monitoring size growth of semiconductor particles in the laboratory.

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Study of ZnO nanoparticles: Antibacterial property and light depolarization property using light scattering tool

Roy

Barua

Buragohain

et al. 2013

Journal of Quantitative Spectroscopy and Radiative Transfer

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Monte Carlo simulation of light scattering from size distributed sub-micron spherical CdS particles in a volume element

Roy

Ahmed

2011

Optik

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Novelty of Light Scattering Technique over Other Conventional Techniques for Characterization of Bio-Particles

Roy

Biswas

Chettri

2022

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Size quantification of sub-micron ZnSe semiconductor particles by laboratory scattering methods

et al. 2010

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A novel route has been developed to synthesize sub-micron Zinc Selenide semiconductor particles through elemental solvothermal process. Transparent polyvinyl alcohol matrix was chosen as host material for embedding these ZnSe particles in order to stop agglomeration of the particles as well as to facilitate optical characterization. Structural and morphological characterizations were carried out through high resolution electron microscopy and UV-vis spectroscopy. In order to understand light scattering phenomena of these particles, they were investigated by a custom made set up which uses a He-Ne laser of wavelength 632.8nm and an array of Silicon photodetectors. An attempt was made to experimentally determine the most significant element of the Mueller scattering matrix. Novel computational technique, involving single scattering for spherical particles using T-matrix theory was applied. The analysis of the experimental data was done by the method of comparison with theoretically generated data. The theoretical prediction was found to agree well qualitatively with the experimental data. Our results validitate that within an acceptable margin of error of the experimental results, the combination of experimental setup and associated computational method is an efficient and reliable in-situ system for size quantification of sub-micron semiconductor particles in the laboratory.

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Sanchita Roy

Size dependent optical characterization of semiconductor particle: CdS embedded in polymer matrix

Study of ZnO nanoparticles: Antibacterial property and light depolarization property using light scattering tool

Monte Carlo simulation of light scattering from size distributed sub-micron spherical CdS particles in a volume element

Novelty of Light Scattering Technique over Other Conventional Techniques for Characterization of Bio-Particles

Size quantification of sub-micron ZnSe semiconductor particles by laboratory scattering methods

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