Linked e-resources
Details
Table of Contents
1.2.11 Radiation Processing Technology
1.2.12 Basic Knowledge of Radiation Protection
1.3 Applications and Developments of Nuclear Technology
1.3.1 Nuclear Technology in Energy
1.3.2 Nuclear Technology in the Industry
1.3.3 Nuclear Technology in Agriculture
1.3.4 Nuclear Technology in Medicine
1.3.5 Nuclear Technology in Environmental Protection
Bibliography
2 Preparation of Radionuclides
2.1 Sources of Radionuclides
2.1.1 Natural Radionuclides
2.1.2 Artificial Radionuclides
2.2 Production of Radionuclides in Reactors
2.2.1 Neutron Nuclear Reactions and Their Characteristics
2.2.2 Production of Radionuclides by Reactor Irradiation
2.2.3 Extraction of Radionuclides from Fission Products
2.3 Production of Radionuclides by Accelerators
2.3.1 Brief History of the Development of Accelerator-Produced Radionuclides
2.3.2 Components and Classification of Accelerators
2.3.3 Characteristics of Radionuclides Produced by Accelerators
2.3.4 Types of Nuclear Reactions for Radionuclide Production by Accelerators
2.3.5 Production of Radionuclides by Accelerators
2.3.6 Application of Radionuclides Produced by Accelerators
2.3.7 Production of Radionuclides 123I by Accelerators
2.4 Radionuclide Generators
2.4.1 Fundamentals
2.4.2 Types of Radionuclide Generators
2.4.3 Requirements for the Preparation of Radionuclide Generators
2.4.4 Requirements for Medical Radionuclide Generators
2.4.5 Preparation of Major Radionuclide Generators
Bibliography
3 Nuclear Analytical Techniques and Methods
3.1 Overview of Nuclear Analytical Techniques and Methods
3.1.1 Classification of Nuclear Analytical Techniques
3.1.2 Principles of Nuclear Analytical Techniques
3.1.3 Characteristics of Nuclear Analytical Techniques
3.2 X-Ray Fluorescence Analysis
3.2.1 Principle and Characteristics of X-Ray Fluorescence Analysis
3.2.2 Basic Structure of the X-Ray Fluorescence Spectrometer
3.2.3 Qualitative and Quantitative Analytical Methods
3.3 Neutron Activation Analysis
3.3.1 Principle and Characteristics of Activation Analysis
3.3.2 Classification of Activation Analysis
3.3.3 History of Neutron Activation Analysis Techniques
3.3.4 Neutron Activation Source
1.2.12 Basic Knowledge of Radiation Protection
1.3 Applications and Developments of Nuclear Technology
1.3.1 Nuclear Technology in Energy
1.3.2 Nuclear Technology in the Industry
1.3.3 Nuclear Technology in Agriculture
1.3.4 Nuclear Technology in Medicine
1.3.5 Nuclear Technology in Environmental Protection
Bibliography
2 Preparation of Radionuclides
2.1 Sources of Radionuclides
2.1.1 Natural Radionuclides
2.1.2 Artificial Radionuclides
2.2 Production of Radionuclides in Reactors
2.2.1 Neutron Nuclear Reactions and Their Characteristics
2.2.2 Production of Radionuclides by Reactor Irradiation
2.2.3 Extraction of Radionuclides from Fission Products
2.3 Production of Radionuclides by Accelerators
2.3.1 Brief History of the Development of Accelerator-Produced Radionuclides
2.3.2 Components and Classification of Accelerators
2.3.3 Characteristics of Radionuclides Produced by Accelerators
2.3.4 Types of Nuclear Reactions for Radionuclide Production by Accelerators
2.3.5 Production of Radionuclides by Accelerators
2.3.6 Application of Radionuclides Produced by Accelerators
2.3.7 Production of Radionuclides 123I by Accelerators
2.4 Radionuclide Generators
2.4.1 Fundamentals
2.4.2 Types of Radionuclide Generators
2.4.3 Requirements for the Preparation of Radionuclide Generators
2.4.4 Requirements for Medical Radionuclide Generators
2.4.5 Preparation of Major Radionuclide Generators
Bibliography
3 Nuclear Analytical Techniques and Methods
3.1 Overview of Nuclear Analytical Techniques and Methods
3.1.1 Classification of Nuclear Analytical Techniques
3.1.2 Principles of Nuclear Analytical Techniques
3.1.3 Characteristics of Nuclear Analytical Techniques
3.2 X-Ray Fluorescence Analysis
3.2.1 Principle and Characteristics of X-Ray Fluorescence Analysis
3.2.2 Basic Structure of the X-Ray Fluorescence Spectrometer
3.2.3 Qualitative and Quantitative Analytical Methods
3.3 Neutron Activation Analysis
3.3.1 Principle and Characteristics of Activation Analysis
3.3.2 Classification of Activation Analysis
3.3.3 History of Neutron Activation Analysis Techniques
3.3.4 Neutron Activation Source