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Autore principale: C. Gutiérrez-Tapia
Natura: Artículo científico
Lingua:en
Pubblicazione: Sociedad Mexicana de Física A.C. 2017
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Accesso online:https://www.redalyc.org/articulo.oa?id=57050469013
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author C. Gutiérrez-Tapia
author_facet C. Gutiérrez-Tapia
contents Continued fraction approximations to the temperature integral C. Gutiérrez-Tapia H. Flores-Llamas Física, Astronomía y Matemáticas approximation continued fractions temperature integral Complementary incomplete gamma function The simplest phenomenological model describing thermoluminescence becomes the one-trap-one recombination center model (OTOR). As it is known, the analysis of thermoluminescence data greatly benefits from separation of a glow curve into separate glow peaks. The shape of the peaks in thermoluminescence dosimetry can be represented by the so-called temperature integral. The highly important and close relation between the complementary incomplete gamma function ¡(a; z) and the temperature integral in thermoluminescence dosimetry has engaged specialists to pursue a more accurate calculation of ¡(a; z). In this work, new approximations for the temperature integral, considering the fast convergence of continued fractions and the straightforward evaluation of the algebraic expressions are obtained. The new reported approximants improve the calculation efficiency of the temperature integral. The simplicity or precision of resent approximations, have a strong effect on values of physical quantities obtained from thermoluminescence data. Keywords: Complementary incomplete gamma function; continued fractions; temperature integral; approximation. 2017 artículo científico 0035-001X https://www.redalyc.org/articulo.oa?id=57050469013 en http://www.redalyc.org/revista.oa?id=570 Revista Mexicana de Física application/pdf Sociedad Mexicana de Física A.C. Revista Mexicana de Física (México) Num.1 Vol.63
format Artículo científico
id redalyc_57050469013
language en
publishDate 2017
publisher Sociedad Mexicana de Física A.C.
spellingShingle Continued fraction approximations to the temperature integral
C. Gutiérrez-Tapia
Física, Astronomía y Matemáticas
approximation
continued fractions
temperature integral
Complementary incomplete gamma function
Continued fraction approximations to the temperature integral C. Gutiérrez-Tapia H. Flores-Llamas Física, Astronomía y Matemáticas approximation continued fractions temperature integral Complementary incomplete gamma function The simplest phenomenological model describing thermoluminescence becomes the one-trap-one recombination center model (OTOR). As it is known, the analysis of thermoluminescence data greatly benefits from separation of a glow curve into separate glow peaks. The shape of the peaks in thermoluminescence dosimetry can be represented by the so-called temperature integral. The highly important and close relation between the complementary incomplete gamma function ¡(a; z) and the temperature integral in thermoluminescence dosimetry has engaged specialists to pursue a more accurate calculation of ¡(a; z). In this work, new approximations for the temperature integral, considering the fast convergence of continued fractions and the straightforward evaluation of the algebraic expressions are obtained. The new reported approximants improve the calculation efficiency of the temperature integral. The simplicity or precision of resent approximations, have a strong effect on values of physical quantities obtained from thermoluminescence data. Keywords: Complementary incomplete gamma function; continued fractions; temperature integral; approximation. 2017 artículo científico 0035-001X https://www.redalyc.org/articulo.oa?id=57050469013 en http://www.redalyc.org/revista.oa?id=570 Revista Mexicana de Física application/pdf Sociedad Mexicana de Física A.C. Revista Mexicana de Física (México) Num.1 Vol.63
title Continued fraction approximations to the temperature integral
topic Física, Astronomía y Matemáticas
approximation
continued fractions
temperature integral
Complementary incomplete gamma function
url https://www.redalyc.org/articulo.oa?id=57050469013