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[资源]
FUNDAMENTALS OF NUCLEAR SCIENCE AND ENGINEERING
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Contents 1 Fundamental Concepts 1.1 Modern Units 1.1.1 Special Nuclear Units 1.1.2 Physical Constants 1.2 The Atom 1.2.1 Atomic and Nuclear Nomenclature 1.2.2 Atomic and Molecular Weights 1.2.3 Avogadro's Number 1.2.4 Mass of an Atom 1.2.5 Atomic Number Density 1.2.6 Size of an Atom 1.2.7 Atomic and Isotopic Abundances 1.2.8 Nuclear Dimensions 1.3 Chart of the Nuclides 1.3.1 Other Sources of Atomic/Nuclear Information 2 Modern Physics Concepts 2.1 The Special Theory of Relativity 2.1.1 Principle of Relativity 2.1.2 Results of the Special Theory of Relativity 2.2 Radiation as Waves and Particles 2.2.1 The Photoelectric Effect 2.2.2 Compton Scattering 2.2.3 Electromagnetic Radiation: Wave-Particle Duality 2.2.4 Electron Scattering 2.2.5 Wave-Particle Duality 2.3 Quantum Mechanics 2.3.1 Schrodinger's Wave Equation 2.3.2 The Wave Function 2.3.3 The Uncertainty Principle 2.3.4 Success of Quantum Mechanics 2.4 Addendum 1: Derivation of Some Special Relativity Results 2.4.1 Time Dilation Copyright 2002 by Marcel Dekker, Inc. All Rights Reserved. 2.4.2 Length Contraction 2.4.3 Mass Increase 2.5 Addendum 2: Solutions to Schrodinger's Wave Equation 2.5.1 The Particle in a Box 2.5.2 The Hydrogen Atom 2.5.3 Energy Levels for Multielectron Atoms Atomic/Nuclear Models 3.1 Development of the Modern Atom Model 3.1.1 Discovery of Radioactivity 3.1.2 Thomson's Atomic Model: The Plum Pudding Model 3.1.3 The Rutherford Atomic Model 3.1.4 The Bohr Atomic Model 3.1.5 Extension of the Bohr Theory: Elliptic Orbits 3.1.6 The Quantum Mechanical Model of the Atom 3.2 Models of the Nucleus 3.2.1 Fundamental Properties of the Nucleus 3.2.2 The Proton-Electron Model 3.2.3 The Proton-Neutron Model 3.2.4 Stability of Nuclei 3.2.5 The Liquid Drop Model of the Nucleus 3.2.6 The Nuclear Shell Model 3.2.7 Other Nuclear Models Nuclear Energetics 4.1 Binding Energy 4.1.1 Nuclear and Atomic Masses 4.1.2 Binding Energy of the Nucleus 4.1.3 Average Nuclear Binding Energies 4.2 Niicleon Separation Energy 4.3 Nuclear Reactions 4.4 Examples of Binary Nuclear Reactions 4.4.1 Multiple Reaction Outcomes 4.5 Q-Value for a Reaction 4.5.1 Binary Reactions 4.5.2 Radioactive Decay Reactions 4.6 Conservation of Charge and the Calculation of Q-Values 4.6.1 Special Case for Changes in the Proton Number 4.7 Q-Value for Reactions Producing Excited Nulcei Radioactivity 5.1 Overview 5.2 Types of Radioactive Decay 5.3 Energetics of Radioactive Decay 5.3.1 Gamma Decay 5.3.2 Alpha-Particle Decay 5.3.3 Beta-Particle Decay Copyright 2002 by Marcel Dekker, Inc. All Rights Reserved. 5.3.4 Positron Decay 5.3.5 Electron Capture 5.3.6 Neutron Decay 5.3.7 Proton Decay 5.3.8 Internal Conversion 5.3.9 Examples of Energy-Level Diagrams 5.4 Characteristics of Radioactive Decay 5.4.1 The Decay Constant 5.4.2 Exponential Decay 5.4.3 The Half-Life 5.4.4 Decay Probability for a Finite Time Interval 5.4.5 Mean Lifetime 5.4.6 Activity 5.4.7 Half-Life Measurement 5.4.8 Decay by Competing Processes 5.5 Decay Dynamics 5.5.1 Decay with Production 5.5.2 Three Component Decay Chains 5.5.3 General Decay Chain 5.6 Naturally Occurring Radionuclides 5.6.1 Cosmogenic Radionuclides 5.6.2 Singly Occurring Primordial Radionuclides 5.6.3 Decay Series of Primordial Origin 5.6.4 Secular Equilibrium 5.7 Radiodating 5.7.1 Measuring the Decay of a Parent 5.7.2 Measuring the Buildup of a Stable Daughter 6 Binary Nuclear Reactions 6.1 Types of Binary Reactions 6.1.1 The Compound Nucleus 6.2 Kinematics of Binary Two-Product Nuclear Reactions 6.2.1 Energy/Mass Conservation 6.2.2 Conservation of Energy and Linear Momentum 6.3 Reaction Threshold Energy 6.3.1 Kinematic Threshold 6.3.2 Coulomb Barrier Threshold 6.3.3 Overall Threshold Energy 6.4 Applications of Binary Kinematics 6.4.1 A Neutron Detection Reaction 6.4.2 A Neutron Production Reaction 6.4.3 Heavy Particle Scattering from an Electron 6.5 Reactions Involving Neutrons 6.5.1 Neutron Scattering 6.5.2 Neutron Capture Reactions 6.5.3 Fission Reactions 6.6 Characteristics of the Fission Reaction Copyright 2002 by Marcel Dekker, Inc. All Rights Reserved. 6.6.1 Fission Products 6.6.2 Neutron Emission in Fission 6.6.3 Energy Released in Fission 6.7 Fusion Reactions 6.7.1 Thermonuclear Fusion 6.7.2 Energy Production in Stars 6.7.3 Nucleogenesis 7 Radiation Interactions with Matter 7.1 Attenuation of Neutral Particle Beams 7.1.1 The Linear Interaction Coefficient 7.1.2 Attenuation of Uncollided Radiation 7.1.3 Average Travel Distance Before an Interaction 7.1.4 Half-Thickness 7.1.5 Scattered Radiation 7.1.6 Microscopic Cross Sections 7.2 Calculation of Radiation Interaction Rates 7.2.1 Flux Density 7.2.2 Reaction-Rate Density 7.2.3 Generalization to Energy- and Time-Dependent Situations 7.2.4 Radiation Fluence 7.2.5 Uncollided Flux Density from an Isotropic Point Source 7.3 Photon Interactions 7.3.1 Photoelectric Effect 7.3.2 Compton Scattering 7.3.3 Pair Production 7.3.4 Photon Attenuation Coefficients 7.4 Neutron Interactions 7.4.1 Classification of Types of Interactions 7.4.2 Fission Cross Sections 7.5 Attenuation of Charged Particles 7.5.1 Interaction Mechanisms 7.5.2 Particle Range 7.5.3 Stopping Power 7.5.4 Estimating Charged-Particle Ranges 8 Detection and Measurement of Radiation 8.1 Gas-Filled Radiation Detectors 8.1.1 lonization Chambers 8.1.2 Proportional Counters 8.1.3 Geiger-Mueller Counters 8.2 Scintillation Detectors 8.3 Semiconductor lonizing-Radiation Detectors 8.4 Personal Dosimeters 8.4.1 The Pocket Ion Chamber 8.4.2 The Film Badge 8.4.3 The Thermoluminescent Dosimeter Copyright 2002 by Marcel Dekker, Inc. All Rights Reserved. 8.5 Measurement Theory 8.5.1 Types of Measurement Uncertainties 8.5.2 Uncertainty Assignment Based Upon Counting Statistics 8.5.3 Dead Time 8.5.4 Energy Resolution 9 Radiation Doses and Hazard Assessment 9.1 Historical Roots 9.2 Dosimetric Quantities 9.2.1 Energy Imparted to the Medium 9.2.2 Absorbed Dose 9.2.3 Kerma 9.2.4 Calculating Kerma and Absorbed Doses 9.2.5 Exposure 9.2.6 Relative Biological Effectiveness 9.2.7 Dose Equivalent 9.2.8 Quality Factor 9.2.9 Effective Dose Equivalent 9.2.10 Effective Dose 9.3 Natural Exposures for Humans 9.4 Health Effects from Large Acute Doses 9.4.1 Effects on Individual Cells 9.4.2 Deterministic Effects in Organs and Tissues 9.4.3 Potentially Lethal Exposure to Low-LET Radiation 9.5 Hereditary Effects 9.5.1 Classification of Genetic Effects 9.5.2 Summary of Risk Estimates 9.5.3 Estimating Gonad Doses and Genetic Risks 9.6 Cancer Risks from Radiation Exposures 9.6.1 Dose-Response Models for Cancer 9.6.2 Average Cancer Risks for Exposed Populations 9.7 Radon and Lung Cancer Risks 9.7.1 Radon Activity Concentrations 9.7.2 Lung Cancer Risks 9.8 Radiation Protection Standards 9.8.1 Risk-Related Dose Limits 9.8.2 The 1987 NCRP Exposure Limits 10 Principles of Nuclear Reactors 10.1 Neutron Moderation 10.2 Thermal-Neutron Properties of Fuels 10.3 The Neutron Life Cycle in a Thermal Reactor 10.3.1 Quantification of the Neutron Cycle 10.3.2 Effective Multiplication Factor 10.4 Homogeneous and Heterogeneous Cores 10.5 Reflectors 10.6 Reactor Kinetics Copyright 2002 by Marcel Dekker, Inc. All Rights Reserved. 10.6.1 A Simple Reactor Kinetics Model 10.6.2 Delayed Neutrons 10.6.3 Reactivity and Delta-k 10.6.4 Revised Simplified Reactor Kinetics Models 10.6.5 Power Transients Following a Reactivity Insertion 10.7 Reactivity Feedback 10.7.1 Feedback Caused by Isotopic Changes 10.7.2 Feedback Caused by Temperature Changes 10.8 Fission Product Poisons 10.8.1 Xenon Poisoning 10.8.2 Samarium Poisoning 10.9 Addendum 1: The Diffusion Equation 10.9.1 An Example Fixed-Source Problem 10.9.2 An Example Criticality Problem 10.9.3 More Detailed Neutron-Field Descriptions 10.10 Addendum 2: Kinetic Model with Delayed Neutrons 10.11 Addendum 3: Solution for a Step Reactivity Insertion 11 Nuclear Power 11.1 Nuclear Electric Power 11.1.1 Electricity from Thermal Energy 11.1.2 Conversion Efficiency 11.1.3 Some Typical Power Reactors 11.1.4 Coolant Limitations 11.2 Pressurized Water Reactors 11.2.1 The Steam Cycle of a PWR 11.2.2 Major Components of a PWR 11.3 Boiling Water Reactors 11.3.1 The Steam Cycle of a BWR 11.3.2 Major Components of a BWR 11.4 New Designs for Central-Station Power 11.4.1 Certified Evolutionary Designs 11.4.2 Certified Passive Design 11.4.3 Other Evolutionary LWR Designs 11.4.4 Gas Reactor Technology 11.5 The Nuclear Fuel Cycle 11.5.1 Uranium Requirements and Availability 11.5.2 Enrichment Techniques 11.5.3 Radioactive Waste 11.5.4 Spent Fuel 11.6 Nuclear Propulsion 11.6.1 Naval Applications 11.6.2 Other Marine Applications 11.6.3 Nuclear Propulsion in Space 12 Other Methods for Converting Nuclear Energy to Electricity 12.1 Thermoelectric Generators 12.1.1 Radionuclide Thermoelectric Generators Copyright 2002 by Marcel Dekker, Inc. All Rights Reserved. 12.2 Thermionic Electrical Generators 12.2.1 Conversion Efficiency 12.2.2 In-Pile Thermionic Generator 12.3 AMTEC Conversion 12.4 Stirling Converters 12.5 Direct Conversion of Nuclear Radiation 12.5.1 Types of Nuclear Radiation Conversion Devices 12.5.2 Betavoltaic Batteries 12.6 Radioisotopes for Thermal Power Sources 12.7 Space Reactors 12.7.1 The U.S. Space Reactor Program 12.7.2 The Russian Space Reactor Program 13 Nuclear Technology in Industry and Research 13.1 Production of Radioisotopes 13.2 Industrial and Research Uses of Radioisotopes and Radiation 13.3 Tracer Applications 13.3.1 Leak Detection 13.3.2 Pipeline Interfaces 13.3.3 Flow Patterns 13.3.4 Flow Rate Measurements 13.3.5 Labeled Reagents 13.3.6 Tracer Dilution 13.3.7 Wear Analyses 13.3.8 Mixing Times 13.3.9 Residence Times 13.3.10 Frequency Response 13.3.11 Surface Temperature Measurements 13.3.12 Radiodating 13.4 Materials Affect Radiation 13.4.1 Radiography 13.4.2 Thickness Gauging 13.4.3 Density Gauges 13.4.4 Level Gauges 13.4.5 Radiation Absorptiometry 13.4.6 Oil-Well Logging 13.4.7 Neutron Activation Analysis 13.4.8 Neutron Capture-Gamma Ray Analysis 13.4.9 Molecular Structure Determination 13.4.10 Smoke Detectors 13.5 Radiation Affects Materials 13.5.1 Food Preservation 13.5.2 Sterilization 13.5.3 Insect Control 13.5.4 Polymer Modification 13.5.5 Biological Mutation Studies 13.5.6 Chemonuclear Processing Copyright 2002 by Marcel Dekker, Inc. All Rights Reserved. 14 Medical Applications of Nuclear Technology 14.1 Diagnostic Imaging 14.1.1 X-Ray Projection Imaging 14.1.2 Fluoroscopy 14.1.3 Mammography 14.1.4 Bone Densitometry 14.1.5 X-Ray Computed Tomography (CT) 14.1.6 Single Photon Emission Computed Tomography (SPECT) 14.1.7 Positron Emission Tomography (PET) 14.1.8 Magnetic Resonance Imaging (MRI) 14.2 Radioimmunoassay 14.3 Diagnostic Radiotracers 14.4 Radioimmunoscintigraphy 14.5 Radiation Therapy 14.5.1 Early Applications 14.5.2 Teletherapy 14.5.3 Radionuclide Therapy 14.5.4 Clinical Brachytherapy 14.5.5 Boron Neutron Capture Therapy Appendic A: Fundamental Atomic Data Appendix B: Atomic Mass Table Appendix C: Cross Sections and Related Data Appendix D: Decay Characteristics of Selected Radionuclides |
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