Verfügbarkeit: Subatomic physics

Subatomic physics:

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Bibliographische Detailangaben
Hauptverfasser:	Henley, Ernest M. 1924-2017 (VerfasserIn), García Reyes, Alejandro (VerfasserIn)
Format:	Buch
Sprache:	English
Veröffentlicht:	Hackensack, NJ [u.a.] World Scientific 2007
Ausgabe:	3. ed.
Schlagworte:	Nuclear physics Particles (Nuclear physics) Kernphysik Elementarteilchen Elementarteilchenphysik Lehrbuch
Online-Zugang:	Inhaltsverzeichnis
Beschreibung:	XX, 620 S. graph. Darst. - graph. Darst.
ISBN:	9789812700575 9812700579

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Datensatz im Suchindex

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adam_text	Contents Dedication v Acknowledgments vii Preface to the First Edition ix Preface to the Third Edition xi General Bibliography xiii 1 Background and Language 1 1.1 Orders of Magnitude .......................... 1 1.2 Units ................................... 3 1.3 Special Relativity. Feynmau Diagrams ................ 4 1.4 References ................................ 8 1 Tools 11 2 Accelerators 13 2.1 Why Accelerators? ........................... 13 2.2 Cross Sections and Luminosity ..................... 16 2.3 Electrostatic Generators (Van de Graatf) ............... 18 2.4 Linear Accelerators (Linaes) ...................... 20 2.5 Beam Optics ............................... 22 2.6 Synchrotron« .............................. 24 2.7 Laboratory and Center-of-Momentuin Frames ............ 29 2.8 Colliding Beams ............................. 31 2.9 Superconducting Linaes ........................ 31 2.10 Beam Storage and Cooling ....................... 32 2.11 References ................................ 34 Contents Passage of Radiation Through Matter 39 3.1 Concepts................................. 39 3.2 Heavy Charged Particles ........................ 41 3.3 Photons ................................. 45 3.4 Electrons ................................. 46 3.5 Nuclear Interactions .......................... 49 3.6 References ................................ 50 Detectors 53 4.1 Scintillation Counters .......................... 53 4.2 Statistical Aspects ........................... 56 4.3 Semiconductor Detectors ........................ 59 4.4 Bubble Chambers ............................ 62 4.5 Spark Chambers ............................. 64 4.6 Wire Chambers ............................. 65 4.7 Drift Chambers ............................. 66 4.8 Time Projection Chambers ....................... 67 4.9 Čerenkov Counters ........................... 68 4.10 Calorimeters ............................... 69 4.11 Counter Electronics ........................... 70 4.12 Electronics: Logic ............................ 72 4.13 References ................................ 73 II Particles and Nuclei 77 5 The Subatomic Zoo 79 5.1 Mass and Spin. Fermions and Bosons ................. 79 5.2 Electric Charge and Magnetic Dipole Moment ............ 84 5.3 Mass Measurements ........................... 87 5.4 A First Glance at the Subatomic Zoo ................. 92 5.5 Gauge Bosons .............................. 94 5.6 Leptons ................................. 97 5.7 Decays .................................. 98 5.8 Mesons .................................. 103 5.9 Baryon Ground States ......................... 105 5.10 Particles and Antiparticles ....................... 108 5.11 Quarks. Gluons, and Intermediate Bosons .............. 112 5.12 Excited States and Resonances .................... 118 5.13 Excited States of Baryons....................... 122 5.14 References ................................ 128 Contents xvii 6 Structure of Subatomic Particles 135 6.1 The Approach: Elastic Scattering ................... 135 6.2 Rutherford and Mott Scattering .................... 136 6.3 Form Factors .............................. 140 6.4 The Charge Distribution of Spherical Nuclei ............. 143 6.5 Leptons Are Point Particles ...................... 147 6.6 Nucleón Elastic Form Factors ..................... 153 6.7 The Charge Radii of the Pion and Kaon ............... 160 6.8 Inelastic Electron and Muon Scattering ................ 161 6.9 Deep Inelastic Electron Scattering ................... 164 6.10 Quark-Parton Model for Deep Inelastic Scattering ......... 166 6.11 More Details on Scattering and Structure .............. 172 6.12 References ................................ 189 III Symmetries and Conservation Laws 195 7 Additive Conservation Laws 197 7.1 Conserved Quantities and Symmetries ................ 197 7.2 The Electric Charge .......................... 203 7.3 The Baryon Number .......................... 206 7.4 Lepton and Lepton Flavor Number .................. 208 7.5 Strangeness Flavor ........................... 211 7.6 Additive Quantum Numbers of Quarks ................ 214 7.7 References ................................ 216 8 Angular Momentum and Isospin 221 8.1 Invariance Under Spatial Rotation .................. 221 8.2 Symmetry Breaking by a Magnetic Field ............... 223 8.3 Charge Independence of Hadronic Forces ............... 224 8.4 The Nucleón Isospin .......................... 225 8.5 Isospin Invariance ............................ 226 8.6 Isospin of Particles ........................... 228 8.7 Isospin in Nuclei ............................ 232 8.8 References ................................ 235 9 P, C, CP, and Τ 239 9.1 The Parity Operation .......................... 239 9.2 The Intrinsic Parities of Subatomic Particles ............. 243 9.3 Conservation and Breakdown of Parity ................ 247 9.4 Charge Conjugation ........................... 252 9.5 Time Reversal .............................. 256 9.6 The Two-State Problem ........................ 260 ii Contents 9.7 The Neutral Kaons ...........................263 9.8 The Fall of CP Invariance .......................268 9.9 References ................................271 IV Interactions 279 10 The Electromagnetic Interaction 281 10.1 The Golden Rule ............................ 281 10.2 Phase Space ............................... 286 10.3 The Classical Electromagnetic Interaction .............. 289 10.4 Photon Emission ............................ 292 10.5 Multipole Radiation .......................... 299 10.6 Electromagnetic Scattering of Lept ons................ 303 10.7 Vector Mesons as Mediators of the Photon-Hadron Interaction . . 307 10.8 Colliding Beams ............................. 311 10.9 Electron-Positron Collisions and Quarks ............... 314 10.10 The Photon-Hadron Interaction: Real and Spacelike Photons . . . 317 10.11 Magnetic Monopoles .......................... 323 10.12 References ................................ 324 11 The Weak Interaction 331 11.1 The Continuous Beta Spectrum .................... 331 11.2 Beta Decay Lifetimes .......................... 335 11.3 The Current-Current Interaction of the Standard Model ...... 337 11.4 A Variety of Weak Processes ...................... 342 11.5 The Muon Decay ............................ 346 11.6 The Weak Current of Leptons ..................... 348 11.7 Chirality versus Helicity ........................ 353 11.8 The Weak Coupling Constant GF ................... 354 11.9 Weak Decays of Quarks and the CKM Matrix ............ 355 11.10 Weak Currents in Nuclear Physics ................... 356 11.11 Inverse Beta Decay: Reines and Cowan s Detection of Neutrinos . . 361 11.12 Massive Neutrinos ............................ 363 11.13 Majorana versus Dirac Neutrinos ................... 365 11.14 The Weak Current of Hadrous at High Energies ........... 366 11.15 References ................................ 375 12 Introduction to Gauge Theories 383 12.1 Introduction ...............................383 12.2 Potentials in Quantum Mechanics — The Aharonov-Bohm Effect . . 386 12.3 Gauge Invariance for Non-Abelian Fields ...............388 12.4 The Higgs Mechanism; Spontaneous Symmetry Breaking ......393 Contents xix 12.5 General References........................... 401 13 The Electroweak Theory of the Standard Model 403 13.1 Introduction ............................... 403 13.2 The Gauge Bosons and Weak Isospin ................. 404 13.3 The Electroweak Interaction ...................... 408 13.4 Tests of the Standard Model ...................... 414 13.5 References ................................ 418 14 Strong Interactions 421 14.1 Range and Strength of the Low-Energy Strong Interactions .... 422 14.2 The Pion-Nucleon Interaction--Survey ................ 425 14.3 The Form of the Pion Nucleón Interaction .............. 430 14.4 The Yukawa Theory of Nuclear Forces ................ 432 14.5 Low-Energy Nucleón-Nucleón Force ................. 434 14.6 Meson Theory of the Nucleón Nucleón Force ............ 442 14.7 Strong Processes at High Energies ................... 445 14.8 The Standard Model. Quantum Chromodyuamics .......... 451 14.9 QCD at Low Energies ......................... 456 14.10 Grand Unified Theories. Supersyminetry. String Theories ...... 458 14.11 References ................................ 460 V Models 469 15 Quark Models of Mesons and Baryons 471 15.1 Introduction ............................... 471 15.2 Quarks as Building Blocks of Hadrons ................ 472 15.3 Hunting the Quark ........................... 474 15.4 Mesons as Bound Quark States .................... 475 15.5 Baryons as Bound Quark States .................... 478 15.6 The Hadron Masses ........................... 480 15.7 QCD and Quark Models of the Hadrons ............... 483 15.8 Heavy Mesons: Charmonium. Upsilon ................... 491 15.9 Outlook and Problems ......................... 493 15.10 References ................................ 494 16 Liquid Drop Model. Fermi Gas Model, Heavy Ions 501 16.1 The Liquid Drop Model ........................ 501 16.2 The Fermi Gas Model ......................... 506 16.3 Heavy Ion Reactions .......................... 508 16.4 Relativistic Heavy Ion Collisions .................... 511 16.5 References ................................ 515 xx Contents 17 The Shell Model 521 17.1 The Magic Numbers .......................... 522 17.2 The Closed Shells............................ 524 17.3 The Spin-Orbit Interaction ...................... 529 17.4 The Single-Particle Shell Model.................... 531 17.5 Generalization of the Single-Particle Model .............. 533 17.6 Isobaric Analog Resonances ...................... 535 17.7 Nuclei Far From the Valley of Stability ................ 537 17.8 References ................................ 538 18 Collective Model 543 18.1 Nuclear Deformations .......................... 544 18.2 Rotational Spectra of Spinless Nuclei ................. 547 18.3 Rotational Families ........................... 551 18.4 One-Particle Motion in Deformed Nuclei (Nilsson Model) ...... 554 18.5 Vibrational States in Spherical Nuclei ................. 558 18.6 The Interacting Boson Model ..................... 562 18.7 Highly Excited States; Giant Resonances ............... 564 18.8 Nuclear Models — Concluding Remarks ................ 567 18.9 References ................................ 570 19 Nuclear and Particle Astrophysics 579 19.1 The Beginning of the Universe ..................... 579 19.2 Primordial Nucleosynthesis ....................... 585 19.3 Stellar Energy and Nucleosynthesis .................. 586 19.4 Stellar Collapse and Neutron Stars .................. 592 19.5 Cosmic Rays ............................... 596 19.6 Neutrino Astronomy and Cosmology ................. 601 19.7 Leptogenesis as Basis for Baryon Excess ............... 602 19.8 References ................................ 603 Index 609
adam_txt	Contents Dedication v Acknowledgments vii Preface to the First Edition ix Preface to the Third Edition xi General Bibliography xiii 1 Background and Language 1 1.1 Orders of Magnitude . 1 1.2 Units . 3 1.3 Special Relativity. Feynmau Diagrams . 4 1.4 References . 8 1 Tools 11 2 Accelerators 13 2.1 Why Accelerators? . 13 2.2 Cross Sections and Luminosity . 16 2.3 Electrostatic Generators (Van de Graatf) . 18 2.4 Linear Accelerators (Linaes) . 20 2.5 Beam Optics . 22 2.6 Synchrotron« . 24 2.7 Laboratory and Center-of-Momentuin Frames . 29 2.8 Colliding Beams . 31 2.9 Superconducting Linaes . 31 2.10 Beam Storage and Cooling . 32 2.11 References . 34 Contents Passage of Radiation Through Matter 39 3.1 Concepts. 39 3.2 Heavy Charged Particles . 41 3.3 Photons . 45 3.4 Electrons . 46 3.5 Nuclear Interactions . 49 3.6 References . 50 Detectors 53 4.1 Scintillation Counters . 53 4.2 Statistical Aspects . 56 4.3 Semiconductor Detectors . 59 4.4 Bubble Chambers . 62 4.5 Spark Chambers . 64 4.6 Wire Chambers . 65 4.7 Drift Chambers . 66 4.8 Time Projection Chambers . 67 4.9 Čerenkov Counters . 68 4.10 Calorimeters . 69 4.11 Counter Electronics . 70 4.12 Electronics: Logic . 72 4.13 References . 73 II Particles and Nuclei 77 5 The Subatomic Zoo 79 5.1 Mass and Spin. Fermions and Bosons . 79 5.2 Electric Charge and Magnetic Dipole Moment . 84 5.3 Mass Measurements . 87 5.4 A First Glance at the Subatomic Zoo . 92 5.5 Gauge Bosons . 94 5.6 Leptons . 97 5.7 Decays . 98 5.8 Mesons . 103 5.9 Baryon Ground States . 105 5.10 Particles and Antiparticles . 108 5.11 Quarks. Gluons, and Intermediate Bosons . 112 5.12 Excited States and Resonances . 118 5.13 Excited States of Baryons. 122 5.14 References . 128 Contents xvii 6 Structure of Subatomic Particles 135 6.1 The Approach: Elastic Scattering . 135 6.2 Rutherford and Mott Scattering . 136 6.3 Form Factors . 140 6.4 The Charge Distribution of Spherical Nuclei . 143 6.5 Leptons Are Point Particles . 147 6.6 Nucleón Elastic Form Factors . 153 6.7 The Charge Radii of the Pion and Kaon . 160 6.8 Inelastic Electron and Muon Scattering . 161 6.9 Deep Inelastic Electron Scattering . 164 6.10 Quark-Parton Model for Deep Inelastic Scattering . 166 6.11 More Details on Scattering and Structure . 172 6.12 References . 189 III Symmetries and Conservation Laws 195 7 Additive Conservation Laws 197 7.1 Conserved Quantities and Symmetries . 197 7.2 The Electric Charge . 203 7.3 The Baryon Number . 206 7.4 Lepton and Lepton Flavor Number . 208 7.5 Strangeness Flavor . 211 7.6 Additive Quantum Numbers of Quarks . 214 7.7 References . 216 8 Angular Momentum and Isospin 221 8.1 Invariance Under Spatial Rotation . 221 8.2 Symmetry Breaking by a Magnetic Field . 223 8.3 Charge Independence of Hadronic Forces . 224 8.4 The Nucleón Isospin . 225 8.5 Isospin Invariance . 226 8.6 Isospin of Particles . 228 8.7 Isospin in Nuclei . 232 8.8 References . 235 9 P, C, CP, and Τ 239 9.1 The Parity Operation . 239 9.2 The Intrinsic Parities of Subatomic Particles . 243 9.3 Conservation and Breakdown of Parity . 247 9.4 Charge Conjugation . 252 9.5 Time Reversal . 256 9.6 The Two-State Problem . 260 ii Contents 9.7 The Neutral Kaons .263 9.8 The Fall of CP Invariance .268 9.9 References .271 IV Interactions 279 10 The Electromagnetic Interaction 281 10.1 The Golden Rule . 281 10.2 Phase Space . 286 10.3 The Classical Electromagnetic Interaction . 289 10.4 Photon Emission . 292 10.5 Multipole Radiation . 299 10.6 Electromagnetic Scattering of Lept ons. 303 10.7 Vector Mesons as Mediators of the Photon-Hadron Interaction . . 307 10.8 Colliding Beams . 311 10.9 Electron-Positron Collisions and Quarks . 314 10.10 The Photon-Hadron Interaction: Real and Spacelike Photons . . . 317 10.11 Magnetic Monopoles . 323 10.12 References . 324 11 The Weak Interaction 331 11.1 The Continuous Beta Spectrum . 331 11.2 Beta Decay Lifetimes . 335 11.3 The Current-Current Interaction of the Standard Model . 337 11.4 A Variety of Weak Processes . 342 11.5 The Muon Decay . 346 11.6 The Weak Current of Leptons . 348 11.7 Chirality versus Helicity . 353 11.8 The Weak Coupling Constant GF . 354 11.9 Weak Decays of Quarks and the CKM Matrix . 355 11.10 Weak Currents in Nuclear Physics . 356 11.11 Inverse Beta Decay: Reines and Cowan's Detection of Neutrinos . . 361 11.12 Massive Neutrinos . 363 11.13 Majorana versus Dirac Neutrinos . 365 11.14 The Weak Current of Hadrous at High Energies . 366 11.15 References . 375 12 Introduction to Gauge Theories 383 12.1 Introduction .383 12.2 Potentials in Quantum Mechanics — The Aharonov-Bohm Effect . . 386 12.3 Gauge Invariance for Non-Abelian Fields .388 12.4 The Higgs Mechanism; Spontaneous Symmetry Breaking .393 Contents xix 12.5 General References. 401 13 The Electroweak Theory of the Standard Model 403 13.1 Introduction . 403 13.2 The Gauge Bosons and Weak Isospin . 404 13.3 The Electroweak Interaction . 408 13.4 Tests of the Standard Model . 414 13.5 References . 418 14 Strong Interactions 421 14.1 Range and Strength of the Low-Energy Strong Interactions . 422 14.2 The Pion-Nucleon Interaction--Survey . 425 14.3 The Form of the Pion Nucleón Interaction . 430 14.4 The Yukawa Theory of Nuclear Forces . 432 14.5 Low-Energy Nucleón-Nucleón Force . 434 14.6 Meson Theory of the Nucleón Nucleón Force . 442 14.7 Strong Processes at High Energies . 445 14.8 The Standard Model. Quantum Chromodyuamics . 451 14.9 QCD at Low Energies . 456 14.10 Grand Unified Theories. Supersyminetry. String Theories . 458 14.11 References . 460 V Models 469 15 Quark Models of Mesons and Baryons 471 15.1 Introduction . 471 15.2 Quarks as Building Blocks of Hadrons . 472 15.3 Hunting the Quark . 474 15.4 Mesons as Bound Quark States . 475 15.5 Baryons as Bound Quark States . 478 15.6 The Hadron Masses . 480 15.7 QCD and Quark Models of the Hadrons . 483 15.8 Heavy Mesons: Charmonium. Upsilon . 491 15.9 Outlook and Problems . 493 15.10 References . 494 16 Liquid Drop Model. Fermi Gas Model, Heavy Ions 501 16.1 The Liquid Drop Model . 501 16.2 The Fermi Gas Model . 506 16.3 Heavy Ion Reactions . 508 16.4 Relativistic Heavy Ion Collisions . 511 16.5 References . 515 xx Contents 17 The Shell Model 521 17.1 The Magic Numbers . 522 17.2 The Closed Shells. 524 17.3 The Spin-Orbit Interaction . 529 17.4 The Single-Particle Shell Model. 531 17.5 Generalization of the Single-Particle Model . 533 17.6 Isobaric Analog Resonances . 535 17.7 Nuclei Far From the Valley of Stability . 537 17.8 References . 538 18 Collective Model 543 18.1 Nuclear Deformations . 544 18.2 Rotational Spectra of Spinless Nuclei . 547 18.3 Rotational Families . 551 18.4 One-Particle Motion in Deformed Nuclei (Nilsson Model) . 554 18.5 Vibrational States in Spherical Nuclei . 558 18.6 The Interacting Boson Model . 562 18.7 Highly Excited States; Giant Resonances . 564 18.8 Nuclear Models — Concluding Remarks . 567 18.9 References . 570 19 Nuclear and Particle Astrophysics 579 19.1 The Beginning of the Universe . 579 19.2 Primordial Nucleosynthesis . 585 19.3 Stellar Energy and Nucleosynthesis . 586 19.4 Stellar Collapse and Neutron Stars . 592 19.5 Cosmic Rays . 596 19.6 Neutrino Astronomy and Cosmology . 601 19.7 Leptogenesis as Basis for Baryon Excess . 602 19.8 References . 603 Index 609
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genre	(DE-588)4123623-3 Lehrbuch gnd-content
genre_facet	Lehrbuch
id	DE-604.BV023207551
illustrated	Illustrated
index_date	2024-07-02T20:10:41Z
indexdate	2024-07-09T21:13:05Z
institution	BVB
isbn	9789812700575 9812700579
language	English
oai_aleph_id	oai:aleph.bib-bvb.de:BVB01-016393679
oclc_num	191881726
open_access_boolean
owner	DE-91G DE-BY-TUM DE-29T
owner_facet	DE-91G DE-BY-TUM DE-29T
physical	XX, 620 S. graph. Darst. - graph. Darst.
publishDate	2007
publishDateSearch	2007
publishDateSort	2007
publisher	World Scientific
record_format	marc
spelling	Henley, Ernest M. 1924-2017 Verfasser (DE-588)142071889 aut Subatomic physics Ernest M. Henley ; Alejandro Garcia 3. ed. Hackensack, NJ [u.a.] World Scientific 2007 XX, 620 S. graph. Darst. - graph. Darst. txt rdacontent n rdamedia nc rdacarrier Nuclear physics Particles (Nuclear physics) Kernphysik (DE-588)4030340-8 gnd rswk-swf Elementarteilchen (DE-588)4014413-6 gnd rswk-swf Elementarteilchenphysik (DE-588)4014414-8 gnd rswk-swf (DE-588)4123623-3 Lehrbuch gnd-content Kernphysik (DE-588)4030340-8 s Elementarteilchenphysik (DE-588)4014414-8 s 1\p DE-604 Elementarteilchen (DE-588)4014413-6 s 2\p DE-604 García Reyes, Alejandro Verfasser aut Digitalisierung UB Regensburg application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016393679&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis 1\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk 2\p cgwrk 20201028 DE-101 https://d-nb.info/provenance/plan#cgwrk
spellingShingle	Henley, Ernest M. 1924-2017 García Reyes, Alejandro Subatomic physics Nuclear physics Particles (Nuclear physics) Kernphysik (DE-588)4030340-8 gnd Elementarteilchen (DE-588)4014413-6 gnd Elementarteilchenphysik (DE-588)4014414-8 gnd
subject_GND	(DE-588)4030340-8 (DE-588)4014413-6 (DE-588)4014414-8 (DE-588)4123623-3
title	Subatomic physics
title_auth	Subatomic physics
title_exact_search	Subatomic physics
title_exact_search_txtP	Subatomic physics
title_full	Subatomic physics Ernest M. Henley ; Alejandro Garcia
title_fullStr	Subatomic physics Ernest M. Henley ; Alejandro Garcia
title_full_unstemmed	Subatomic physics Ernest M. Henley ; Alejandro Garcia
title_short	Subatomic physics
title_sort	subatomic physics
topic	Nuclear physics Particles (Nuclear physics) Kernphysik (DE-588)4030340-8 gnd Elementarteilchen (DE-588)4014413-6 gnd Elementarteilchenphysik (DE-588)4014414-8 gnd
topic_facet	Nuclear physics Particles (Nuclear physics) Kernphysik Elementarteilchen Elementarteilchenphysik Lehrbuch
url	http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=016393679&sequence=000002&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA
work_keys_str_mv	AT henleyernestm subatomicphysics AT garciareyesalejandro subatomicphysics

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