281 results on '"Booz J"'
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2. Appendix B: Interaction Data for Body Tissues and Tissue Substitutes
3. 3. Selection Requirements for Tissue Substitutes
4. 4. The Composition of Body Tissues
5. 5. Comparative Interaction and Depth-Dose Data for Selected Tissue Substitutes
6. 2. Basic Concepts
7. Appendix C: Formulation and Fabrication Techniques
8. Some Consequences of the Auger Effect: Fluorescence Yield, Charge Potential, and Energy Imparted
9. A Monte Carlo Simulation of Auger Cascades
10. A Monte Carlo Treatment of the Decay of 125 I
11. ICRU Reports
12. Calculation and Measurement of Neutron-Produced Single-Event Spectra
13. Energy deposition by protons and alpha particles in spherical sites of nanometer to micrometer diameter
14. Characterisation of Neutron-, Photon- and Mixed Radiation Fields for Radiation Protection
15. BIOLOGICAL MICRODOSIMETRY - USE OF MICRODOSIMETRIC QUANTITIES AND FUNCTIONS FOR THE EVALUATION OF BIOLOGICAL RESPONSE
16. Appendix A: Tissue Substitute Compositions
17. 1. Introduction
18. Neutron scattering and energy deposition spectra
19. Development of dose equivalent meters based on microdosimetric principles
20. A microdosimetric interpretation of the radiobiological effectiveness of125I and the problem of quality factor
21. The influence of the counter wall and the counter shape on the spectral energy deposition in small volumes by60Co gamma-rays and 200 kV X-rays
22. Cellular and nuclear volume of human cells during the cell cycle
23. 6. Calculation of Microdosimetric Spectra and Their Averages
24. Appendix F: Mean Values
25. 4. Particle Tracks and Energy Deposition
26. ICRU Reports
27. Appendix D: Principal Technical Features of Proportional Counters Used in Microdosimetry
28. 7. Phenomenological Presentation of Single and Multiple Event Spectra
29. 5. Experimental Evaluation of Microdosimetric Spectra
30. 8. Employment of Microdosimetric Concepts and Techniques
31. 3. Primary Interaction of Radiation with Matter
32. Appendix C: Composition and Material Constants of Tissue Equivalent Compounds and Mixtures
33. References
34. A Monte Carlo analysis of neutron-produced single event spectra
35. Energieabhängigkeit der mittleren Energie pro Ionenpaar bei kleinen Elektronenenergien
36. Influence of energy straggling on the shape of neutron-produced single event spectra
37. List of Symbols*
38. 6. Conclusions
39. Neutron dosimetry, radiation quality and biological dosimetry
40. Contributions on neutron dosimetry, radiation quality and biological dosimetry
41. ENERGY TRANSFER BY ALPHA-PARTICLES TO BIOLOGICAL ENTITIES OF VERY SMALL SIZE
42. 1. Introduction
43. Appendix E: Details of Methods of Calculation
44. 2. Microdosimetric Quantities and Distributions
45. Reformulation of the acceleration rate vector from Frenet's formulas using body axis velocities and accelerators
46. Editorial - Eleventh Symposium on Microdosimetry
47. Photon Induced Microdosimetric Distributions in Nanometre and Micrometre Sites
48. Editorial - Tenth Symposium on Microdosimetry
49. The KFA Counter: A Dosimetry System for Use in Radiation Protection
50. Acute Non-stochastic Effect of Very Low Dose Whole-body Exposure, a Thymidine Equivalent Serum Factor.
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