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  • About
  • The Global ETD Search service is a free service for researchers to find electronic theses and dissertations. This service is provided by the Networked Digital Library of Theses and Dissertations.
    Our metadata is collected from universities around the world. If you manage a university/consortium/country archive and want to be added, details can be found on the NDLTD website.
1

Tomographic imaging of matter using primary and secondary X- and gamma-radiation

Holloway, Ian Ernest January 1989 (has links)
Gamma rays may Interact with matter by a variety of processes, many of which give rise to secondary radiations. This thesis examines the possibility of performing tomographic imaging by means of these secondary photons using low-cost apparatus. The techniques are compared with each other and with transmission tomography, which plays such an Important role in modern diagnostic imaging. The progress of industrial tomography is reviewed as are techniques of Investigation using gamma ray scattering in both industry and medicine. Some new applications of a simple gamma ray CT scanner have been performed. A method of determining the spatial distribution of pure beta emitters in matter by performing tomographic imaging using the bremsstrahlung radiation produced by the beta particles has been demonstrated. This technique has been shown to permit imaging at depths in material greatly exceeding the range of beta particles in matter. All the imaging techniques using secondary radiation have displayed two principal limitations: long scanning times and poor quantitative accuracy. The low scanning rate results from the small number of secondary photons that are detected. The major contributing factors to poor accuracy are attenuation and the noise produced by unwanted in-scattering. The possible applications for secondary photon imaging have been briefly outlined and some suggestions for future work are included, Although techniques based upon Imaging using secondary radiation will not be able to compete with transmission CT in the vast majority of applications, they may prove valuable in a range of specialised fields.
2

Μελέτη ακτινοβολίας χώρου σε συμβατικές ακτινολογικές μονάδες / Study of secondary radiation in classical radiography units

Βλάχος, Ιωάννης 22 July 2008 (has links)
Σκοπός της εργασίας αυτής είναι η χαρτογράφηση της δευτερογενούς ακτινοβολίας ακτινογραφικής λυχνίας μέσα στην αίθουσα εξέτασης, ενός συμβατικού ακτινολογικού μηχανήματος, συναρτήσει διαφόρων ακτινογραφικών παραμέτρων. Στόχος των μετρήσεων αυτών είναι ο υπολογισμός της σκεδαζόμενης ακτινοβολίας και της διαρρέουσας ακτινοβολίας σε διάφορες γωνίες από 0 μοίρες έως και 360 μοίρες, με βήμα 45 μοιρών, χρησιμοποιώντας έναν κυλινδρικό σκεδαστή νερού διαστάσεων: διάμετρος = 38 cm και ύψος 20 cm, σε διάφορες αποστάσεις από τον σκεδαστή (1.0 m, 1.5 m και 2.0 m), για διαφορετικό πάχος φίλτρου λυχνίας και διαφορετικά στοιχεία ακτινογράφησης. / Secondary radiation in classical radiography units in different angles (0-360 angles)and in different distances (1.0 m, 1.5 m and 2.0 m) around the X-Ray tube. The phnatom we use was cylindrical with water, the dimancional of the phantom was: d = 38 cm and h = 20 cm. Different thickness of tube filter and differnt kV,mA,mAs.
3

Aktivace kolimačního systému lineárního urychlovače fotonovým zářením a její vliv na dávky obdržené personálem. / Activation of collimating system of linear accelerator through photon radiation and its impact on the doses received by the staff.

KUBÍKOVÁ, Adéla January 2017 (has links)
The diploma thesis on the topic "Activation of Collimating System of Linear Accelerator through Photon Radiation and its Impact on the Doses Received by the Staff" is divided into two parts, a theoretical and a practical part. The introductory theoretical part is devoted to the basic information about ionizing radiation. What are the types of ionizing radiation, its characteristics, properties and sources of ionizing radiation. Furthermore, there are mentioned direct and indirect interactions of ionizing radiation, a brief description of charged particle accelerators, collimator systems and radioisotope irradiation devices. Another part deals with radiation protection, basic legislation, methods and principles of radiation protection, personal dosimetry and medical supervision of radiation workers. Literary sources, available internet links and valid legal regulations were used for the work. In the practical part, a number of measurements were carried out to measure and to analyse the doses of secondary radiation of the linear accelerator collimator system for different photon beam energies, depending on time, distance from source, position of radiologic assistant around the table when working with the patient, as well as sizes of irradiated field. The aim of the work was to find out how large the doses of secondary radiation are, although measurable, but their values are not sufficient to be detected by personal dosimeters of radiological assistants. Confirm the hypothesis that the doses from the secondary radiation of the linear accelerator collimator system are so low that the dose power does not exceed 0.031 mGy/hr. The results obtained from various measurements are processed into transparent tables and graphically displayed. Based on the results of the measurements, the hypotheses were confirmed.
4

Radiační zátěž osob pracujících v riziku ionozujícího záření ve Fakultní nemocnici Plzeň / Radiation exposure of persons working in the risk of ioniing radiation in the University Hospital in Pilsen

ULČOVÁ, Radka January 2014 (has links)
The diploma thesis on "Radiation exposure of persons working at risk of ionising radiation at the Pilsen University Hospital" is divided into two parts. The first analyses personal effective doses of the employees of the Pilsen University Hospital in 20092013, and the second focuses on measurements of secondary radiation created after the activation of collimator systems of linear accelerators. The introduction of the theoretical part discusses the history of radiology, followed by a summary of information on the sources of ionising radiation, its characteristics, properties, methods of interaction with the environment and biological effects on organisms. The chapter on radiation protection focuses on basic legislative regulations relevant to the topic. In the Czech Republic, radiation protection of people working with sources of ionising radiation is mostly based on Act No. 18/1997 Coll., on peaceful uses of nuclear energy, and Regulation of the State Office for Nuclear Safety No. 307/2002 Coll., on radiation protection. The thesis also lists dose limits and basic information about personal dosimetry, and the theoretical section is concluded with information on the methods of protecting personnel and on provided healthcare. The thesis uses as its sources primary literature, internet links, current legislation and data from the database of the State Office for Nuclear Safety on records from personal dosimeters in the analysed period. The thesis had two objectives. The first was to compare levels of exposure at the Pilsen University Hospital. The analysis involved 579 persons in total; after arranging the data into tables and dividing employees into groups by the type of tasks they perform and their job, it was possible to compare median value indicators, confirming the hypothesis that persons carrying out intervention tasks are exposed to more ionising radiation. In order to compare the development of doses over time, a double-selection t-test was performed on data from 2009 and 2013, confirming the effectiveness of anti-radiation measures adopted at the University Hospital and a reduction in the exposure of employees in this period. The second objective was to confirm or deny the hypothesis that secondary radiation created by collimator systems, while measurable, is not sufficiently large to be detected by personal dosimeters. In order to achieve this objective, measurements were carried out at the Oncology and Radiology Clinic of the Pilsen University Hospital. The first measurements tried to determine the relationship between dose and time at various levels of energy, the second compared the relationship between dose and distance from the collimator plane and the third monitored the number of exposures until the collimator plates are saturated and dose is no longer increased. All results were arranged in tables and projected in charts. The results of the research confirmed the hypothesis that secondary radiation created during the use of high-energy equipment is just below the detection limits of personal dosimeters. For this reason, it is recommended to frequently rotate personnel working with the equipment.

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