Fundamentals In Nuclear Physics,9780387016726

Fundamentals In Nuclear Physics

by ; ;
ISBN13: 9780387016726
ISBN10: 0387016724
Format: Hardcover
Pub. Date: 2005-07-15
Publisher(s): Springer Verlag
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Summary

This course on nuclear physics leads the reader to the exploration of the field from nuclei to astrophysical issues. Much nuclear phenomenology can be understood from simple arguments such as those based on the Pauli principle and the Coulomb barrier. This book is concerned with extrapolating from such arguments and illustrating nuclear systematics with experimental data. Starting with the basic concepts in nuclear physics, nuclear models, and reactions, the book covers nuclear decays and the fundamental electro-weak interactions, radioactivity, and nuclear energy. After the discussions of fission and fusion leading into nuclear astrophysics, there is a presentation of the latest ideas about cosmology. As a primer this course will lay the foundations for more specialized subjects.This book emerged from a series of topical courses the authors delivered at the Ecole Polytechnique and will be useful for graduate students and for scientists in a variety of fields.

Table of Contents

Introduction 1(8)
Basic concepts in nuclear physics
9(58)
Nucleons and leptons
9(2)
General properties of nuclei
11(14)
Nuclear radii
12(2)
Binding energies
14(3)
Mass units and measurements
17(8)
Quantum states of nuclei
25(4)
Nuclear forces and interactions
29(12)
The deuteron
31(4)
The Yukawa potential and its generalizations
35(3)
Origin of the Yukawa potential
38(1)
From forces to interactions
39(2)
Nuclear reactions and decays
41(2)
Conservation laws
43(8)
Energy-momentum conservation
44(2)
Angular momentum and parity (non)conservation
46(1)
Additive quantum numbers
46(2)
Quantum theory of conservation laws
48(3)
Charge independence and isospin
51(7)
Isospin space
51(1)
One-particle states
52(3)
The generalized Pauli principle
55(1)
Two-nucleon system
55(1)
Origin of isospin symmetry; n-p mass difference
56(2)
Deformed nuclei
58(4)
Bibliography
62(5)
Exercises
62(5)
Nuclear models and stability
67(40)
Mean potential model
69(5)
The Liquid-Drop Model
74(3)
The Bethe--Weizsacker mass formula
74(3)
The Fermi gas model
77(4)
Volume and surface energies
79(2)
The asymmetry energy
81(1)
The shell model and magic numbers
81(9)
The shell model and the spin-orbit interaction
85(3)
Some consequences of nuclear shell structure
88(2)
β-instability
90(4)
α-instability
94(4)
Nucleon emission
98(2)
The production of super-heavy elements
100(1)
Bibliography
101(6)
Exercises
101(6)
Nuclear reactions
107(68)
Cross-sections
108(13)
Generalities
108(3)
Differential cross-sections
111(1)
Inelastic and total cross-sections
112(1)
The uses of cross-sections
113(2)
General characteristics of cross-sections
115(6)
Classical scattering on a fixed potential
121(5)
Classical cross-sections
122(1)
Examples
123(3)
Quantum mechanical scattering on a fixed potential
126(17)
Asymptotic states and their normalization
127(2)
Cross-sections in quantum perturbation theory
129(3)
Elastic scattering
132(3)
Quasi-elastic scattering
135(1)
Scattering of quantum wave packets
136(7)
Particle--particle scattering
143(14)
Scattering of two free particles
143(3)
Scattering of a free particle on a bound particle
146(3)
Scattering on a charge distribution
149(2)
Electron--nucleus scattering
151(2)
Electron--nucleon scattering
153(4)
Resonances
157(4)
Nucleon-nucleus and nucleon--nucleon scattering
161(8)
Elastic scattering
161(6)
Absorption
167(2)
Coherent scattering and the refractive index
169(2)
Bibliography
171(4)
Exercises
171(4)
Nuclear decays and fundamental interactions
175(70)
Decay rates, generalities
175(12)
Natural width, branching ratios
175(1)
Measurement of decay rates
176(2)
Calculation of decay rates
178(5)
Phase space and two-body decays
183(1)
Detailed balance and thermal equilibrium
184(3)
Radiative decays
187(8)
Electric-dipole transitions
188(2)
Higher multi-pole transitions
190(3)
Internal conversion
193(2)
Weak interactions
195(26)
Neutron decay
196(6)
β-decay of nuclei
202(5)
Electron-capture
207(2)
Neutrino mass and helicity
209(5)
Neutrino detection
214(4)
Muon decay
218(3)
Families of quarks and leptons
221(20)
Neutrino mixing and weak interactions
221(7)
Quarks
228(4)
Quark mixing and weak interactions
232(3)
Electro-weak unification
235(6)
Bibliography
241(4)
Exercises
241(4)
Radioactivity and all that
245(40)
Generalities
245(1)
Sources of radioactivity
246(10)
Fossil radioactivity
247(5)
Cosmogenic radioactivity
252(2)
Artificial radioactivity
254(2)
Passage of particles through matter
256(14)
Heavy charged particles
257(6)
Particle identification
263(2)
Electrons and positrons
265(1)
Photons
266(3)
Neutrons
269(1)
Radiation dosimetry
270(3)
Applications of radiation
273(8)
Medical applications
273(1)
Nuclear dating
274(6)
Other uses of radioactivity
280(1)
Bibliography
281(4)
Exercises
282(3)
Fission
285(44)
Nuclear energy
285(2)
Fission products
287(3)
Fission mechanism, fission barrier
290(5)
Fissile materials and fertile materials
295(2)
Chain reactions
297(2)
Moderators, neutron thermalization
299(2)
Neutron transport in matter
301(7)
The transport equation in a simple uniform spherically symmetric medium
302(3)
The Lorentz equation
305(1)
Divergence, critical mass
306(2)
Nuclear reactors
308(15)
Thermal reactors
309(7)
Fast neutron reactors
316(3)
Accelerator-coupled sub-critical reactors
319(3)
Treatment and re-treatment of nuclear fuel
322(1)
The Oklo prehistoric nuclear reactor
323(3)
Bibliography
326(3)
Exercises
327(2)
Fusion
329(22)
Fusion reactions
330(9)
The Coulomb barrier
331(4)
Reaction rate in a medium
335(3)
Resonant reaction rates
338(1)
Reactor performance criteria
339(3)
Magnetic confinement
342(4)
Inertial confinement by lasers
346(3)
Bibliography
349(2)
Exercises
349(2)
Nuclear Astrophysics
351(46)
Stellar Structure
351(12)
Classical stars
352(7)
Degenerate stars
359(4)
Nuclear burning stages in stars
363(10)
Hydrogen burning
363(3)
Helium burning
366(3)
Advanced nuclear-burning stages
369(1)
Core-collapse
370(3)
Stellar nucleosynthesis
373(8)
Solar-system abundances
373(3)
Production of A < 60 nuclei
376(1)
A > 60: the s-, r- and p-processes
376(5)
Nuclear astronomy
381(16)
Solar Neutrinos
382(8)
Supernova neutrinos
390(2)
γ-astronomy
392(2)
Exercises
394(3)
Nuclear Cosmology
397(44)
The Universe today
399(6)
The visible Universe
400(1)
Baryons
401(1)
Cold dark matter
401(1)
Photons
402(1)
Neutrinos
403(1)
The vacuum
404(1)
The expansion of the Universe
405(5)
The scale factor a(t)
407(3)
Gravitation and the Friedmann equation
410(6)
High-redshift supernovae and the vacuum energy
416(1)
Reaction rates in the early Universe
416(4)
Electrons, positrons and neutrinos
420(4)
Cosmological nucleosynthesis
424(10)
Wimps
434(7)
Exercises
436(5)
A. Relativistic kinematics
441(4)
B. Accelerators
445(6)
C. Time-dependent perturbation theory
451(4)
Transition rates between two states
451(2)
Limiting forms of the delta function
453(2)
D. Neutron transport
455(6)
The Boltzmann transport equation
455(1)
The Lorentz equation
456(5)
E. Solutions and Hints for Selected Exercises
461(8)
F. Tables of numerical values
469(2)
G. Table of Nuclei
471(36)
References 507(4)
Index 511

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