Title
Fotoakustička karakterizacija materijala visokog stepena optičke providnosti - teorijska razmatranja, eksperimentalna merenja i analiza rezultata
Creator
Miletić, Vesna, 1991-
CONOR:
102701321
Copyright date
2023
Object Links
Select license
Autorstvo-Nekomercijalno-Bez prerade 3.0 Srbija (CC BY-NC-ND 3.0)
License description
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Language
Serbian
Cobiss-ID
Theses Type
Doktorska disertacija
description
Datum odbrane: 29.06.2023.
Other responsibilities
Academic Expertise
Prirodno-matematičke nauke
Academic Title
-
University
Univerzitet u Nišu
Faculty
Prirodno-matematički fakultet
Group
Odsek za fiziku
Alternative title
Photoacoustic characterization of highly transparent materials - theoretical considerations, experimental measurements and analysis of the results
Publisher
[V. V. Miletić]
Format
112 lista
description
Biografija autora: list 109,
Bibliografija: listovi 111-112.
description
Condensed matter
Abstract (en)
Main advantage of photoacoustic, in comparison to other characterization methods, is its non-destructive nature. Another one, potentially, is the prospect of simultaneous measurement of various physical properties. In order to make use of these assets, it is crucial to develop an optimal theoretical model of the measured signal, which accounts for dominant physical processes of the examined material in the available measurement range, but also an inverse procedure which can evaluate with great precision the parameters of the model, i.e. physical properties of the sample.
Due to the increased use of materials with low level of internal arrangement and with low absorbance, but also due to their similarity to biological tissues, the focus of this exploration is set upon their photoacoustic characterization.
Authors Key words
Fotoakustika, ćelija minimalne zapremine, frekventne metode, niska apsorbanca, optička svojstva, toplotna svojstva, elastična svojstva
Authors Key words
Photoacoustic, minimal volume cell, frequency methods, low absorbance, optical properties, thermal properties, elastic properties
Classification
535.3+534:[620.179+53.01/.08(043.3)
Subject
P 260
Type
Tekst
Abstract (en)
Main advantage of photoacoustic, in comparison to other characterization methods, is its non-destructive nature. Another one, potentially, is the prospect of simultaneous measurement of various physical properties. In order to make use of these assets, it is crucial to develop an optimal theoretical model of the measured signal, which accounts for dominant physical processes of the examined material in the available measurement range, but also an inverse procedure which can evaluate with great precision the parameters of the model, i.e. physical properties of the sample.
Due to the increased use of materials with low level of internal arrangement and with low absorbance, but also due to their similarity to biological tissues, the focus of this exploration is set upon their photoacoustic characterization.
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