Propiedades dosimétricas del detector de diamante HPHT sometido rayos X

59 hojas : ilustradas color.

Autores:: Lancheros Olmos, Juan Camilo

Tipo de recurso:: Trabajo de grado de pregrado

Fecha de publicación:: 2014

Institución:: Universidad Pedagógica y Tecnológica de Colombia

Repositorio:: RiUPTC: Repositorio Institucional UPTC

Idioma:: spa

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dc.title.spa.fl_str_mv	Propiedades dosimétricas del detector de diamante HPHT sometido rayos X
title	Propiedades dosimétricas del detector de diamante HPHT sometido rayos X
spellingShingle	Propiedades dosimétricas del detector de diamante HPHT sometido rayos X Dosimetría (Radiación) Corrientes térmicamente estimuladas Termoluminiscencia Radioterapia Física - Tesis y disertaciones académicas
title_short	Propiedades dosimétricas del detector de diamante HPHT sometido rayos X
title_full	Propiedades dosimétricas del detector de diamante HPHT sometido rayos X
title_fullStr	Propiedades dosimétricas del detector de diamante HPHT sometido rayos X
title_full_unstemmed	Propiedades dosimétricas del detector de diamante HPHT sometido rayos X
title_sort	Propiedades dosimétricas del detector de diamante HPHT sometido rayos X
dc.creator.fl_str_mv	Lancheros Olmos, Juan Camilo
dc.contributor.advisor.spa.fl_str_mv	Martínez Ovalle, Segundo Agustín
dc.contributor.author.none.fl_str_mv	Lancheros Olmos, Juan Camilo
dc.subject.spa.fl_str_mv	Dosimetría (Radiación) Corrientes térmicamente estimuladas Termoluminiscencia Radioterapia Física - Tesis y disertaciones académicas
topic	Dosimetría (Radiación) Corrientes térmicamente estimuladas Termoluminiscencia Radioterapia Física - Tesis y disertaciones académicas
description	59 hojas : ilustradas color.
publishDate	2014
dc.date.issued.none.fl_str_mv	2014
dc.date.accessioned.none.fl_str_mv	2016-04-11T16:17:34Z
dc.date.available.none.fl_str_mv	2016-04-11T16:17:34Z
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dc.identifier.citation.spa.fl_str_mv	Lancheros Olmos, J. C. (2014). Propiedades dosimétricas del detector de diamante HPHT sometido rayos X. (Tesis de Pregrado). Universidad Pedagógica y Tecnológica de Colombia, Tunja. <http://repositorio.uptc.edu.co/jspui/handle/001/1409>
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identifier_str_mv	Lancheros Olmos, J. C. (2014). Propiedades dosimétricas del detector de diamante HPHT sometido rayos X. (Tesis de Pregrado). Universidad Pedagógica y Tecnológica de Colombia, Tunja. <http://repositorio.uptc.edu.co/jspui/handle/001/1409> TG CD F16.14 L249
url	https://repositorio.uptc.edu.co/handle/001/1409
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dc.relation.references.eng.fl_str_mv	Preciado-Flores S., Melendrez R., Chernov V., Soto-Puebla D., Pedroza-Montero, M., Barboza-Flores M. Thermal annealing effects on the TL response of beta-irradiated HPHT Ib type synthetic diamond. Physica Status Solidi A: Applications and Materials Science, 2007, p. 3041-3046. Chen R and Kirsh Y. Analysis of themally stimulated processes. Vol 15, Pergamon Press, Oxford, 1981. Yukihara E. G. and Shephen W. S. Optically Stimulated Luminiscense. Edition first, John Wiley & Sons, 2011. Angelis C, Bucciolini M., Viscomi D., Marczewska B., Onoria S. Characterization of a HPHT diamond detector for clinical applications. Nuclear Instruments and Methods in Physics Research, 2010, p. 576-579. Melendrez R., Schreck M., Chernov V., Preciado S., Pedroza M., Barboza M. Afterglow and hermoluminescence properties in HPHT diamond crystals under beta irradiation. Physica Status Solidi A: Applications and Materials Science, 2012, p. 3167-3172. Zaitsev A. Z. Optical Properties of Diamond. Springe, Germany, 2000. Kittel C. Introduction to Solid State Physics. John Willey & Sons, New York, USA, 1996. Jacob F. Tesis Fundamental Studies on the Deposition and Characterisation of Novel Diamond- like Materials. University of Bristol,September 2006. Ramirez C. Uned. http://www.uned.es/cristamine/min_descr/clases/nativos.htm. Christopher M., Breeding and James E., Shigley. The “type” classification system of diamonds and its importace in gemology. Gems &Gemology, 2009. Pace E., Vinattieri A., Pini A., Bogani F., Santoro M., Messina G., Santagelo S. & Santo E. Structural and functional characterization of HPHT diamond crystals used in photoconductive devices. Physica Status Solidi, 2000. Liang Z., Jia X., Ma H. A., Zang C.Y., Zhu P.W., Guan Q.F., Kanda H. Synthesis of HPHT diamond containing high concentrations of nitrogen impurities using NaN3 as dopant in metal-carbon system. Diamond y Related Materials, 2005, p. 1932 – 1935. Alan T., Hisao K., Hiroshi K. Colour changes produced in natural brown diamonds by high-pressure, high-temperature treatment. Diamond and Related Materials, 2000, p.113-122. Pereira R., Gehlhoff W., Sobolev N. A., Neves A. J., Bimberg D. Photo-EPR studies on the AB3 and AB4 nickel-related defects in diamond. Physica B, 2001, p. 308-310. Betchworth A., Earley. Optical absorption and luminescence in diamond. The Institute of Physics, UniversitC Paris, 1979. Sittas G., Kanda H., Kiflawi I., Spear P. M. Growth and characterization of Si-doped diamond single cry Ueda K., Kasu M. High-pressure and high-temperature annealing effects of boron implanted diamond. Diamond and Related Materials, 2008, p.502–505. Weerdt F., Collins A. T. Determination of the C defect concentration in HPHT annealed type IaA diamonds from UV–VIS absorption spectra. Diamond and Related Materials, 2008, 171-173. Bos A. J. Theory of thermoluminescence. Radiation Measurements, 2007, p.45–56. Halperin A. and Chen R. Thermoluminescense of Semiconducting Diamods. Physica Review, 1966, p. 2. Kristianpoller N., Weiss D. and Chen R. Irradiation effects in semiconducting diamonds. Physica B, 2001, p. 612-615. Claudio Furetta, Handbook of thermoluminescence. Edition first, World Scientific Publishing, 2013. Mckeever S.W.S. Thermoluminescence of solids. Cambridge university press, New York,1985. Oberhofer M. and Scharmann A. Techniquies and Management of Personnel Thermoluminescence Dosimetry Services. Kluwer academic publishers,1993. Mckeever S.W.S. and Chen R. Theory thermoluninescense and relatd phonema. Wordl scientific, 1997. Bøtter-Jensen L. Guide to Riso the Riso TL/OSL Reader. Riso National Laboratory, Denmark, 2008. Meléndrez R., Schreck M., Chernov V., Preciado-Flores S., Pedroza-Montero M., and Barboza-Flores M. Afterglow, TL and IRSL in beta-irradiated HPHT type Ib synthetic diamond. Physica Status Solidi, 2006, p. 3167–3172. Benabdesselam M., Lacconi P., Briand D., and Berkane-Krachai A. Thermoluminescence of nickel-doped synthetic diamond crystals. Journal of Applied Physics, 2000, p. 8. Chernov V., Meléndrez R., Gastélum S., Pedroza-Montero M., Piters T., Preciado-Flores S., and Barboza-Flores M. Afterglow and thermoluminescence properties in HPHT diamond crystals under beta irradiation. Physica Status Solidi, 2013, p. 1-7. Lansley S. P., Betzel G. T., Baluti F., Reinisch L., Meyer J. Synthetic diamond X-ray dosimeter for radiotherapy. Solids and Structures, 2011, p. 1658-1661. Marczewxka B., Kuprinyanov I., Palyonov Yu., Nowak T., Olko P., Rebisz M., Waligórsk M. A study of radiation dosimeters based on synthetic HPHT diamond. Diamod and related materials, 2007, p.191-195. Kortov V. Materials for thermoluminescent dosimetry. Current status and future trends, 2007. p. 576-581.
dc.relation.references.spa.fl_str_mv	Acuña G., Luz S. Tesis, Propiedades termoluminiscentes y dosimétricas de películas de diamante crecidas por el método de depósito de vapor quimio expuestas a radiación gamma. Universidad de Sonora, 2012. Florez P. Luz S. Tesis, Características dosimétricas de diamantes crecidos por los métodos HPHT y CVD previamente expuestos a partículas beta y ultravioleta.Universidad de Sonora, 2010.
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dc.publisher.department.spa.fl_str_mv	Escuela de Física
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spelling	Martínez Ovalle, Segundo Agustín41ec4a5b84bce022ca19e620e992696c-1Lancheros Olmos, Juan Camilod435c91b2091297f4a3eaa67ec4c1afd-12016-04-11T16:17:34Z2016-04-11T16:17:34Z2014Lancheros Olmos, J. C. (2014). Propiedades dosimétricas del detector de diamante HPHT sometido rayos X. (Tesis de Pregrado). Universidad Pedagógica y Tecnológica de Colombia, Tunja. <http://repositorio.uptc.edu.co/jspui/handle/001/1409>TG CD F16.14 L249https://repositorio.uptc.edu.co/handle/001/140959 hojas : ilustradas color.Este trabajo presenta el estudio reciente de la dosimetría en diamantes mono-cristalinos sintéticos, crecidos por la técnica de alta presión y alta temperatura (HPHT) ha tenido gran interés en las aplicaciones de la dosimetría de radiaciones. La importancia de este material reside en sus propiedades físicas y químicas, por ejemplo, es química inerte, resistente a la radiación, no toxico y tiene un número atómico Z = 6 equivalente al numero atómico efectivo del tejido humano (Zeff = 7,4). Debido a estas propiedades es utilizado en aplicaciones de dosimetría clínica para la detección de diferentes fuentes de radiación ionizante (alfa, beta, gamma y rayos X) [1,2]. Brinda la oportunidad de describir y obtener un conocimiento más detallado de la termoluminiscencia y luminiscencia ópticamente estimulada en el equipo Riso TL-OSL del grupo de investigación en física de radiaciones de la universidad de Sonora de México y afianza los convenios a futuro con el grupo Finuas de la UPTC.PregradoLicenciado en Físicaapplication/pdfspaCopyright (c) 2014 Universidad Pedagógica y Tecnológica de Colombiahttps://creativecommons.org/licenses/by-nc/4.0/info:eu-repo/semantics/openAccessAtribución-NoComercial 4.0 Internacional (CC BY-NC 4.0)http://purl.org/coar/access_right/c_abf2Dosimetría (Radiación)Corrientes térmicamente estimuladasTermoluminiscenciaRadioterapiaFísica - Tesis y disertaciones académicasPropiedades dosimétricas del detector de diamante HPHT sometido rayos XTrabajo de grado - Pregradohttp://purl.org/coar/resource_type/c_7a1finfo:eu-repo/semantics/bachelorThesisinfo:eu-repo/semantics/publishedVersionTexthttps://purl.org/redcol/resource_type/TPhttp://purl.org/coar/version/c_970fb48d4fbd8a85Preciado-Flores S., Melendrez R., Chernov V., Soto-Puebla D., Pedroza-Montero, M., Barboza-Flores M. Thermal annealing effects on the TL response of beta-irradiated HPHT Ib type synthetic diamond. Physica Status Solidi A: Applications and Materials Science, 2007, p. 3041-3046.Chen R and Kirsh Y. Analysis of themally stimulated processes. Vol 15, Pergamon Press, Oxford, 1981.Yukihara E. G. and Shephen W. S. Optically Stimulated Luminiscense. Edition first, John Wiley & Sons, 2011.Angelis C, Bucciolini M., Viscomi D., Marczewska B., Onoria S. Characterization of a HPHT diamond detector for clinical applications. Nuclear Instruments and Methods in Physics Research, 2010, p. 576-579.Melendrez R., Schreck M., Chernov V., Preciado S., Pedroza M., Barboza M. Afterglow and hermoluminescence properties in HPHT diamond crystals under beta irradiation. Physica Status Solidi A: Applications and Materials Science, 2012, p. 3167-3172.Zaitsev A. Z. Optical Properties of Diamond. Springe, Germany, 2000.Kittel C. Introduction to Solid State Physics. John Willey & Sons, New York, USA, 1996.Jacob F. Tesis Fundamental Studies on the Deposition and Characterisation of Novel Diamond- like Materials. University of Bristol,September 2006.Ramirez C. Uned. http://www.uned.es/cristamine/min_descr/clases/nativos.htm.Christopher M., Breeding and James E., Shigley. The “type” classification system of diamonds and its importace in gemology. Gems &Gemology, 2009.Pace E., Vinattieri A., Pini A., Bogani F., Santoro M., Messina G., Santagelo S. & Santo E. Structural and functional characterization of HPHT diamond crystals used in photoconductive devices. Physica Status Solidi, 2000.Liang Z., Jia X., Ma H. A., Zang C.Y., Zhu P.W., Guan Q.F., Kanda H. Synthesis of HPHT diamond containing high concentrations of nitrogen impurities using NaN3 as dopant in metal-carbon system. Diamond y Related Materials, 2005, p. 1932 – 1935.Alan T., Hisao K., Hiroshi K. Colour changes produced in natural brown diamonds by high-pressure, high-temperature treatment. Diamond and Related Materials, 2000, p.113-122.Pereira R., Gehlhoff W., Sobolev N. A., Neves A. J., Bimberg D. Photo-EPR studies on the AB3 and AB4 nickel-related defects in diamond. Physica B, 2001, p. 308-310.Betchworth A., Earley. Optical absorption and luminescence in diamond. The Institute of Physics, UniversitC Paris, 1979.Sittas G., Kanda H., Kiflawi I., Spear P. M. Growth and characterization of Si-doped diamond single cryUeda K., Kasu M. High-pressure and high-temperature annealing effects of boron implanted diamond. Diamond and Related Materials, 2008, p.502–505.Weerdt F., Collins A. T. Determination of the C defect concentration in HPHT annealed type IaA diamonds from UV–VIS absorption spectra. Diamond and Related Materials, 2008, 171-173.Bos A. J. Theory of thermoluminescence. Radiation Measurements, 2007, p.45–56.Halperin A. and Chen R. Thermoluminescense of Semiconducting Diamods. Physica Review, 1966, p. 2.Kristianpoller N., Weiss D. and Chen R. Irradiation effects in semiconducting diamonds. Physica B, 2001, p. 612-615.Claudio Furetta, Handbook of thermoluminescence. Edition first, World Scientific Publishing, 2013.Mckeever S.W.S. Thermoluminescence of solids. Cambridge university press, New York,1985.Oberhofer M. and Scharmann A. Techniquies and Management of Personnel Thermoluminescence Dosimetry Services. Kluwer academic publishers,1993.Mckeever S.W.S. and Chen R. Theory thermoluninescense and relatd phonema. Wordl scientific, 1997.Bøtter-Jensen L. Guide to Riso the Riso TL/OSL Reader. Riso National Laboratory, Denmark, 2008.Meléndrez R., Schreck M., Chernov V., Preciado-Flores S., Pedroza-Montero M., and Barboza-Flores M. Afterglow, TL and IRSL in beta-irradiated HPHT type Ib synthetic diamond. Physica Status Solidi, 2006, p. 3167–3172.Benabdesselam M., Lacconi P., Briand D., and Berkane-Krachai A. Thermoluminescence of nickel-doped synthetic diamond crystals. Journal of Applied Physics, 2000, p. 8.Chernov V., Meléndrez R., Gastélum S., Pedroza-Montero M., Piters T., Preciado-Flores S., and Barboza-Flores M. Afterglow and thermoluminescence properties in HPHT diamond crystals under beta irradiation. Physica Status Solidi, 2013, p. 1-7.Lansley S. P., Betzel G. T., Baluti F., Reinisch L., Meyer J. Synthetic diamond X-ray dosimeter for radiotherapy. Solids and Structures, 2011, p. 1658-1661.Marczewxka B., Kuprinyanov I., Palyonov Yu., Nowak T., Olko P., Rebisz M., Waligórsk M. A study of radiation dosimeters based on synthetic HPHT diamond. Diamod and related materials, 2007, p.191-195.Kortov V. Materials for thermoluminescent dosimetry. Current status and future trends, 2007. p. 576-581.Acuña G., Luz S. Tesis, Propiedades termoluminiscentes y dosimétricas de películas de diamante crecidas por el método de depósito de vapor quimio expuestas a radiación gamma. Universidad de Sonora, 2012.Florez P. Luz S. 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Propiedades dosimétricas del detector de diamante HPHT sometido rayos X

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