Calculating x-ray tube spectra provides a comprehensive review of the modelling of x-ray tube emissions, with a focus on medical imaging and radiotherapy applications.
Calculating x-ray tube spectra provides a comprehensive review of the modelling of x-ray tube emissions, with a focus on medical imaging and radiotherapy applications.Hinweis: Dieser Artikel kann nur an eine deutsche Lieferadresse ausgeliefert werden.
Produktdetails
Produktdetails
Series in Medical Physics and Biomedical Engineering
Gavin Poludniowski (PhD) is a radiation physicist and recognized expert on modelling x-ray tubes. He has been instrumental in the development of spectrum software such as SpekCalc and SpekPy that are used in hospitals, industry, and research institutions around the world. Artur Omar (PhD) is a medical physicist whose research has involved modelling bremsstrahlung and characteristic x-ray production, estimating patient radiation dose and occupational dosimetry. His doctoral work pioneered the development of a more sophisticated analytical model of the x-ray spectrum. Prof. Pedro Andreo (PhD, DSc, CPhys, FInstP) is a leading scientist in radiation dosimetry and Monte Carlo calculations, having more than 350 publications and conference contributions. He has co-authored most of the existing national and international recommendations for reference dosimetry and received a number of international awards.
Inhaltsangabe
1. Introduction. 2. Basics of X ray tubes. 3. X ray Production 4. Basic Dosimetry and Beam quality Characterization. 5. A review of Analytical Models for the X ray Spectrum 6. An Analytical Model in Detail. 7. Overview on Monte Carlo Modelling. 8. Predicting and Matching Half value Layers. 9. Kilovoltage X ray Beam Dosimetry. 10. Optimizing the Tube Potential
1. Introduction. 2. Basics of X-ray tubes. 3. X-ray Production 4. Basic Dosimetry and Beam-quality Characterization. 5. A review of Analytical Models for the X-ray Spectrum 6. An Analytical Model in Detail. 7. Overview on Monte Carlo Modelling. 8. Predicting and Matching Half-value Layers. 9. Kilovoltage X-ray Beam Dosimetry. 10. Optimizing the Tube Potential
1. Introduction. 2. Basics of X ray tubes. 3. X ray Production 4. Basic Dosimetry and Beam quality Characterization. 5. A review of Analytical Models for the X ray Spectrum 6. An Analytical Model in Detail. 7. Overview on Monte Carlo Modelling. 8. Predicting and Matching Half value Layers. 9. Kilovoltage X ray Beam Dosimetry. 10. Optimizing the Tube Potential
1. Introduction. 2. Basics of X-ray tubes. 3. X-ray Production 4. Basic Dosimetry and Beam-quality Characterization. 5. A review of Analytical Models for the X-ray Spectrum 6. An Analytical Model in Detail. 7. Overview on Monte Carlo Modelling. 8. Predicting and Matching Half-value Layers. 9. Kilovoltage X-ray Beam Dosimetry. 10. Optimizing the Tube Potential
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