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E-raamat: Particles and Nuclei: An Introduction to the Physical Concepts

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  • Formaat: PDF+DRM
  • Ilmumisaeg: 29-Jun-2013
  • Kirjastus: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Keel: eng
  • ISBN-13: 9783662054321
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Particles and Nuclei: An Introduction to the Physical ConceptsSuurem pilt
  • Formaat: PDF+DRM
  • Ilmumisaeg: 29-Jun-2013
  • Kirjastus: Springer-Verlag Berlin and Heidelberg GmbH & Co. K
  • Keel: eng
  • ISBN-13: 9783662054321
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This introductory textbook gives a uniform presentation of nuclear and particle physics. The first part, Analysis, is devoted to disentangling the substructure of matter. This part shows that experiments designed to uncover the substructures of nuclei and nucleons have a similar conceptual basis, and lead to the present picture of all matter being built out of a small number of elementary building blocks and a small number of fundamental interactions. The second part, Synthesis, shows how the elementary particles may be combined to build hadrons and nuclei. The fundamental interactions responsible for the forces in all systems become less and less evident in increasingly complex systems. Such systems are in fact dominated by many-body phenomena. A section on neutrino oscillations and one on nuclear matter at high temperatures bridge the field of "nuclear and particle physics" and "modern astrophysics and cosmology".The fourth edition includes new developments, in particular a new section on the double beta decay including a discussion of the possibility of a neutrinoless decay and its implications for the standard model. This concise text, translated into many languages, has become a standard reference for advanced and undergraduate courses.
1 Hors d'oeuvre 1(10)
1.1 Fundamental Constituents of Matter
1(1)
1.2 Fundamental Interactions
2(2)
1.3 Symmetries and Conservation Laws
4(1)
1.4 Experiments
5(1)
1.5 Units
6(5)
Part I Analysis: The Building Blocks of Matter
2 Global Properties of Nuclei
11(14)
2.1 The Atom and its Constituents
11(2)
2.2 Nuclides
13(5)
2.3 Parametrisation of Binding Energies
18(3)
2.4 Charge Independence of the Nuclear Force and Isospin
21(2)
Problem
23(2)
3 Nuclear Stability
25(16)
3.1 β-Decay
26(5)
3.2 α-Decay
31(2)
3.3 Nuclear Fission
33(2)
3.4 Decay of Excited Nuclear States
35(4)
Problems
39(2)
4 Scattering
41(12)
4.1 General Observations About Scattering Processes
41(3)
4.2 Cross Sections
44(4)
4.3 The "Golden Rule"
48(1)
4.4 Feynman Diagrams
49(3)
Problems
52(1)
5 Geometric Shapes of Nuclei
53(20)
5.1 Kinematics of Electron Scattering
53(3)
5.2 The Rutherford Cross-Section
56(4)
5.3 The Mott Cross-Section
60(1)
5.4 Nuclear Form Factors
61(8)
5.5 Inelastic Nuclear Excitations
69(2)
Problems
71(2)
6 Elastic Scattering off Nucleons
73(10)
6.1 Form Factors of the Nucleons
73(5)
6.2 Quasi-elastic Scattering
78(2)
6.3 Charge Radii of Pions and Kaons
80(2)
Problems
82(1)
7 Deep Inelastic Scattering
83(14)
7.1 Excited States of the Nucleons
83(2)
7.2 Structure Functions
85(3)
7.3 The Parton Model
88(3)
7.4 Interpretation of Structure Functions In the Parton Model
91(3)
Problems
94(3)
8 Quarks, Gluons, and the Strong Interaction
97(16)
8.1 The Quark Structure of Nucleons
97(5)
8.2 Quarks In Hadrons
102(1)
8.3 The Quark-Gluon Interaction
103(4)
8.4 Scaling Violations of the Structure Functions
107(4)
Problem
111(2)
9 Particle Production in e+e- Collisions
113(14)
9.1 Lepton Pair Production
114(4)
9.2 Resonances
118(5)
9.3 Non-resonant Hadron Production
123(2)
9.4 Gluon Emission
125(1)
Problems
126(1)
10 Phenomenology of the Weak Interaction
127(22)
10.1 The Lepton Families
128(4)
10.2 The Types of Weak Interactions
132(2)
10.3 Coupling Strength of the Charged Current
134(4)
10.4 The Quark Families
138(4)
10.5 Parity Violation
142(3)
10.6 Deep Inelastic Neutrino Scattering
145(2)
Problems
147(2)
11 Exchange Bosons of the Weak Interaction
149(14)
11.1 Real W and Z Bosons
149(5)
11.2 Electroweak Unification
154(7)
Problem
161(2)
12 The Standard Model
163(6)
Part II Synthesis: Composite Systems
13 Quarkonia
169(18)
13.1 The Hydrogen Atom and Positronium Analogues
169(3)
13.2 Charmonium
172(3)
13.3 Quark-Antiquark Potential
175(3)
13.4 The Chromomagnetic Interaction
178(1)
13.5 Bottonium and Toponium
179(2)
13.6 The Decay Channels of Heavy Quarkonia
181(2)
13.7 Decay Widths as a Test of QCD
183(2)
Problems
185(2)
14 Mesons Made from Light Quarks
187(12)
14.1 Mesonic Multiplets
187(4)
14.2 Meson Masses
191(2)
14.3 Decay Channels
193(2)
14.4 Neutral Kaon Decay
195(2)
Problems
197(2)
15 The Baryons
199(28)
15.1 The Production and Detection of Baryons
199(6)
15.2 Baryon Multiplets
205(3)
15.3 Baryon Masses
208(3)
15.4 Magnetic Moments
211(4)
15.5 Semileptonic Baryon Decays
215(8)
15.6 How Good Is the Constituent Quark Concept?
223(1)
Problems
224(3)
16 The Nuclear Force
227(16)
16.1 Nucleon-Nucleon Scattering
228(4)
16.2 The Deuteron
232(3)
16.3 Nature of the Nuclear Force
235(6)
Problems
241(2)
17 The Structure of Nuclei
243(40)
17.1 The Fermi Gas Model
243(5)
17.2 Hypernuclei
248(3)
17.3 The Shell Model
251(8)
17.4 Deformed Nuclei
259(3)
17.5 Spectroscopy Through Nuclear Reactions
262(7)
17.6 β-Decay of the Nucleus
269(8)
17.7 Double β-decay
277(4)
Problems
281(2)
18 Collective Nuclear Excitations
283(26)
18.1 Electromagnetic Transitions
284(3)
18.2 Dipole Oscillations
287(8)
18.3 Shape Oscillations
295(3)
18.4 Rotation States
298(9)
Problems
307(2)
19 Nuclear Thermodynamics
309(26)
19.1 Thermodynamical Description of Nuclei
310(2)
19.2 Compound Nuclei and Quantum Chaos
312(3)
19.3 The Phases of Nuclear Matter
315(5)
19.4 Particle Physics and Thermodynamics In the Early Universe
320(7)
19.5 Stellar Evolution and Element Synthesis
327(6)
Problems
333(2)
20 Many-Body Systems in the Strong Interaction
335(4)
A Appendix 339(20)
A.1 Accelerators
339(7)
A.2 Detectors
346(10)
A.3 Combining Angular Momenta
356(2)
A.4 Physical Constants
358(1)
Solutions to the Problems 359(24)
References 383(8)
Index 391
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