Elementary particle physics: the standard theory
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| Format: | Buch |
| Sprache: | English |
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Oxford
Oxford University Press
[2021]
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| Online-Zugang: | Inhaltsverzeichnis |
| Beschreibung: | xiii, 506 Seiten Diagramme |
| ISBN: | 9780192844217 9780192844200 |
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| 245 | 1 | 0 | |a Elementary particle physics |b the standard theory |c J. Iliopoulos and T.N. Tomaras |
| 264 | 1 | |a Oxford |b Oxford University Press |c [2021] | |
| 264 | 4 | |c © 2021 | |
| 300 | |a xiii, 506 Seiten |b Diagramme | ||
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| 653 | 0 | |a Particles (Nuclear physics) | |
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Datensatz im Suchindex
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| adam_text | Contents 1 Introduction 2 Quantisation of the Electromagnetic Field and Spontaneous Photon Emission 2.1 2.2 2.3 2.4 2.5 Introduction The Principle of Canonical Quantisation The Quantum Theory of Radiation 2.3.1 Maxwell’s theory as a classical field theory 2.3.2 Quantum theory of the free electromagnetic field-photons Interaction of Atoms and Radiation 2.4.1 The Hamiltonian 2.4.2 Elements of perturbation theory 2.4.3 The transition probability 2.4.4 Application to the problem of spontaneous emission Problems 3 Elements of Classical Field Theory 3.1 3.2 3.3 3.4 Introduction Lagrangian and Hamiltonian Mechanics Classical Field Theory Problems 4 Scattering in Classical and Quantum Physics 4.1 4.2 4.3 4.4 Introduction The Scattering Cross Section Collisions in Non-Relativistic Quantum Mechanics 4.3.1 The range and the strength of the interactions 4.3.2 Potential scattering Problems 5 Elements of Group Theory 5.1 5.2 5.3 5.4 5.5 Introduction Groups and Representations Lie Groups Lie Algebras Examples of Lie Groups and their Algebras 5.5.1 The group 17(1) 5.5.2 The group St/(2) 5.5.3 The group 0(3) 5.5.4 The group 517(3) 1 4 4 4 6 6 9 13 13 14 15 18 21 24 24 24 27 33 35 35 35 40 40 42 50 51 51 51 57 59 64 64 64 75 79
viii Contents The Lorentz and Poincaré Groups 5.6.1 The Lorentz group 5.6.2 The Poincaré group 5.7 The Space of Physical States 5.7.1 Introduction 5.7.2 Particle states 5.7.3 The Fock space 5.7.4 Action of internal symmetry transformationson Λ 5.7.5 Action of Poincaré transformations on J՜ 5.8 Problems 91 91 100 102 102 102 105 106 107 109 Particle Physics Phenomenology 111 111 111 113 117 117 120 121 122 127 129 131 131 132 133 134 138 142 142 142 144 148 148 149 151 152 156 156 157 159 162 163 165 5.6 6 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 6.10 6.11 6.12 6.13 Introduction Rutherford and the Atomic Nucleus /З-Decay and the Neutrino 1932: The First Table of Elementary Particles 6.4.1 Everything is simple 6.4.2 Conservation laws - baryon and lepton number 6.4.3 The four fundamental interactions Heisenberg and the Symmetries of Nuclear Forces Fermi and the Weak Interactions The Muon and the Pion From Cosmic Rays to Particle Accelerators 6.8.1 Introduction 6.8.2 Electrostatic accelerators 6.8.3 Linear accelerators 6.8.4 Cyclotrons 6.8.5 Colliders The Detectors 6.9.1 Introduction 6.9.2 Bubble chambers 6.9.3 Counters New Elementary Particles and New Quantum Numbers 6.10.1 Unstable particles 6.10.2 Resonances 6.10.3 ՏՍՀ2) as a classification group for hadrons 6.10.4 Strange particles The Eightfold Way and the Quarks 6.11.1 From SU(2) to SUß) 6.11.2 The arrival of the quarks 6.11.3 The breaking of SU(3) 6.11.4 Colour The Present Table of ElementaryParticles Problems
Contents 7 Relativistic Wave Equations 7.1 7.2 7.3 7.4 7.5 8 Towards a Relativistic Quantum Mechanics 8.1 8.2 8.3 8.4 9 Introduction The Klein-Gordon Equation 7.2.1 The Green’s functions 7.2.2 Generalisations The Dirac Equation 7.3.1 Introduction 7.3.2 Weyl and Majorana equations 7.3.3 The Dirac equation 7.3.4 The 7 matrices 7.3.5 The conjugate equation 7.3.6 The standard representation 7.3.7 Lagrangian, Hamiltonian and Green functions 7.3.8 The plane wave solutions Relativistic Equations for Vector Fields 7.4.1 The Maxwell field 7.4.2 Massive spin-1 field 7.4.3 Plane wave solutions Problems Introduction The Klein-Gordon Equation The Dirac Equation 8.3.1 Introduction 8.3.2 The conserved current 8.3.3 The coupling with the electromagnetic field 8.3.4 The non-relativistic limit of the Dirac equation 8.3.5 Negative energy solutions 8.3.6 Charge conjugation 8.3.7 CPT symmetry 8.3.8 Chirality 8.3.9 Hydrogenoid systems Problems From Classical to Quantum Mechanics 9.1 9.2 9.3 Introduction Quantum Mechanics and Path Integrals 9.2.1 The Feynman postulate 9.2.2 Recovering quantum mechanics Problems їх 167 167 167 168 172 173 173 174 175 176 177 178 179 180 183 184 186 187 188 191 191 191 192 192 193 193 194 195 196 198 199 199 204 207 207 208 211 211 219 10 From Classical to Quantum Fields. Free Fields 10.1 Introduction 220 220
x Contents 10.2 10.3 10.4 10.5 10.6 The Klein-Gordon Field 10.2.1 The canonical quantisation 10.2.2 The path integral quantisation The Dirac Field 10.3.1 The canonical quantisation 10.3.2 The path integral quantisation The Maxwell Field 10.4.1 The canonical quantisation 10.4.2 The path integral quantisation Massive Spin-1 Fields Problems 11 Interacting Fields 11.1 11.2 11.3 11.4 11.5 11.6 Introduction ֊ The Axioms of Quantum Field Theory General Results: Invariance under CPT and the Spin-Statistics Theore m 11.2.1 The CPT theorem 11.2.2 The spin-statistics theorem Examples of Interacting Theories Interacting Quantum Field Theories The Perturbation Expansion 11.5.1 The configuration space Feynmanrules 11.5.2 The momentum space Feynman rules 11.5.3 Feynman rules for quantum electrodynamics 11.5.4 Feynman rules for other theories Problems 12 Scattering in Quantum Field Theory 12.1 12.2 12.3 12.4 12.5 12.6 The Asymptotic Theory 12.1.1 The asymptotic states 12.1.2 The asymptotic fields The Reduction Formula The Feynman Rules for the Scattering Amplitude 12.3.1 One scalar field 12.3.2 Quantum electrodynamics The Transition Probability 12.4.1 The cross section 12.4.2 The decay rate Examples 12.5.1 The electron Compton scattering 12.5.2 The electron-positron annihilation into a muon pair 12.5.3 The charged pion decay rate Problems 13 Gauge Interactions 13.1 The Abelian Case 221 221 224 226 226 228 230 230 233 235 235 237 237 239 239 240 241 243 244 244 246 249 249 251 253 253 253 255 256 259 259 259 261 262 263 263 263 266 269 271 273 273
Contents 13.2 13.3 13.4 13.5 Non-Abelian Gauge Invariance and Yang-Mills Theories 13.2.1 Quantisation of Yang-Mills theories 13.2.2 Feynman rules for Yang-Mills theories Gauge Theories on a Space-Time Lattice Brief Historical Notes Problems 14 Spontaneously Broken Symmetries 14.1 14.2 14.3 14.4 Introduction Global Symmetries 14.2.1 Simple examples 14.2.2 A field theory model 14.2.3 Goldstone theorem Gauge Symmetries 14.3.1 The Abelian model 14.3.2 The non-Abelian case Problems 15 The Principles of Renormalisation 15.1 15.2 15.3 15.4 The Need for Renormalisation The Theory of Renormalisation 15.2.1 The power counting 15.2.2 Régularisation 15.2.3 Renormalisation The Renormalisation Group 15.3.1 Renormalisation group in dimensional régularisation Problems 16 The Electromagnetic Interactions 16.1 Introduction 16.2 Quantum Electrodynamics 16.3 Problems 17 Infrared Effects 17.1 Introduction 17.2 Examples of Infrared Divergent Terms in Perturbation Theory 17.3 Infrared Phenomena in QED 17.3.1 Tree-level (O(a2)) electron Coulomb scattering 17.3.2 One-loop corrections to the electron Coulomb scattering 339 17.3.3 Infrared divergence of the photon emission amplitude 17.3.4 The O(o3) measured cross section is infrared finite 17.4 The Summation to All Orders 17.5 The QED Asymptotic Theory Revisited 17.5.1 The Faddeev-Kulish dressed electron states 17.5.2 Coulomb scattering of a dressed electron 17.6 Problems xi 276 279 280 281 283 286 287 287 288 288 290 293 295 295 299 300 304 304 305 306 308 311 320 325 326 329 329 330 334 335 335 335 337 337 341 342 342 343 343 346 348
xii Contents The 1Weak Interactions 18.1 Introduction 18.2 The Fermi Theory 18.3 Parity Violation 18.4 Vector vs Scalar: The Neutrino Helicity 18.5 The V — A Theory Leptonic Interactions 18.6 18.6.1 Muon decay 18.6.2 Other purely leptonic weak processes Semi-Leptonic Interactions 18.7 18.7.1 Strangeness conserving semi-leptonic weak interactions 18.7.2 Strangeness violating semi-leptonic weak interactions Purely Hadronic Weak Interactions 18.8 The Intermediate Vector Boson (IVB) Hypothesis 18.9 18.10 Charged and Neutral Currents 18.11 CP Violation 18.12 Problems 349 349 350 351 356 357 359 360 362 363 363 376 378 378 379 380 385 A Gauge Theory for the Weak and Electromagnetic Interactions Introduction 19.1 The Rules of Model Building 19.2 The Lepton World 19.3 19.4 Extension to Hadrons Problems 19.5 388 388 389 389 393 401 Neutrino Physics A Blessing and a Curse 20.1 20.1.1 The first neutrino beams 20.1.2 Gargamelle and the neutral currents 20.1.3 Very high energy neutrino beams Neutrino Masses and Oscillations 20.2 20.2.1 Introduction 20.2.2 Experimental evidence for neutrino oscillations 20.2.3 The neutrino mass matrix 20.2.4 Neutrinoless double ß decay 20.3 Problems 405 405 406 409 412 413 413 416 418 420 420 The Strong Interactions Strong Interactions are Complicated 21.1 Strong Interactions are Simple 21.2 Asymptotic Freedom 21.3 Quantum Chromodynamics 21.4 21.4.1 Quantum chromodynamics in perturbation theory 21.4.2 Quantum chromodynamics and hadronic physics Problems 21.5 422 422 423 426 426 430 437 440
Contents 22 The Standard Model and Experiment 22.1 22.2 22.3 22.4 22.5 22.6 22.7 22.8 A Unified Picture Classic Experiments 22.2.1 Experimental discovery of charmed particles 22.2.2 Stochastic cooling and the discovery of W± and Z 22.2.3 The discovery of the heavy quarks and of the Brout-Englert-Higgs boson Hadron Spectroscopy The Cabibbo-Kobayashi-Maskawa Matrix and CP Violation 22.4.1 The matrix elements 22.4.2 Unitarity 22.4.3 CP violation The Neutrino Matrix and CP Violation Questions of Flavour 22.6.1 A brief history of flavour 22.6.2 Rare flavour decays An Overall Fit Problems 23 Beyond the Standard Model 23.1 23.2 23.3 Many Questions Beyond, but How? 23.2.1 Grand unified theories (GUTs) 23.2.2 The trial of scalars 23.2.3 Supersymmetry, or the defence of scalars Closing Remarks Appendix A A Collection of Useful Formulae A.l A.2 A.3 Index Units and Notations Free Fields Feynman Rules for Scattering Amplitudes xiii 442 442 442 443 446 449 455 462 462 463 465 469 470 470 471 473 477 479 479 481 481 482 483 487 488 488 489 490 493
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| adam_txt |
Contents 1 Introduction 2 Quantisation of the Electromagnetic Field and Spontaneous Photon Emission 2.1 2.2 2.3 2.4 2.5 Introduction The Principle of Canonical Quantisation The Quantum Theory of Radiation 2.3.1 Maxwell’s theory as a classical field theory 2.3.2 Quantum theory of the free electromagnetic field-photons Interaction of Atoms and Radiation 2.4.1 The Hamiltonian 2.4.2 Elements of perturbation theory 2.4.3 The transition probability 2.4.4 Application to the problem of spontaneous emission Problems 3 Elements of Classical Field Theory 3.1 3.2 3.3 3.4 Introduction Lagrangian and Hamiltonian Mechanics Classical Field Theory Problems 4 Scattering in Classical and Quantum Physics 4.1 4.2 4.3 4.4 Introduction The Scattering Cross Section Collisions in Non-Relativistic Quantum Mechanics 4.3.1 The range and the strength of the interactions 4.3.2 Potential scattering Problems 5 Elements of Group Theory 5.1 5.2 5.3 5.4 5.5 Introduction Groups and Representations Lie Groups Lie Algebras Examples of Lie Groups and their Algebras 5.5.1 The group 17(1) 5.5.2 The group St/(2) 5.5.3 The group 0(3) 5.5.4 The group 517(3) 1 4 4 4 6 6 9 13 13 14 15 18 21 24 24 24 27 33 35 35 35 40 40 42 50 51 51 51 57 59 64 64 64 75 79
viii Contents The Lorentz and Poincaré Groups 5.6.1 The Lorentz group 5.6.2 The Poincaré group 5.7 The Space of Physical States 5.7.1 Introduction 5.7.2 Particle states 5.7.3 The Fock space 5.7.4 Action of internal symmetry transformationson Λ 5.7.5 Action of Poincaré transformations on J՜ 5.8 Problems 91 91 100 102 102 102 105 106 107 109 Particle Physics Phenomenology 111 111 111 113 117 117 120 121 122 127 129 131 131 132 133 134 138 142 142 142 144 148 148 149 151 152 156 156 157 159 162 163 165 5.6 6 6.1 6.2 6.3 6.4 6.5 6.6 6.7 6.8 6.9 6.10 6.11 6.12 6.13 Introduction Rutherford and the Atomic Nucleus /З-Decay and the Neutrino 1932: The First Table of Elementary Particles 6.4.1 Everything is simple 6.4.2 Conservation laws - baryon and lepton number 6.4.3 The four fundamental interactions Heisenberg and the Symmetries of Nuclear Forces Fermi and the Weak Interactions The Muon and the Pion From Cosmic Rays to Particle Accelerators 6.8.1 Introduction 6.8.2 Electrostatic accelerators 6.8.3 Linear accelerators 6.8.4 Cyclotrons 6.8.5 Colliders The Detectors 6.9.1 Introduction 6.9.2 Bubble chambers 6.9.3 Counters New Elementary Particles and New Quantum Numbers 6.10.1 Unstable particles 6.10.2 Resonances 6.10.3 ՏՍՀ2) as a classification group for hadrons 6.10.4 Strange particles The Eightfold Way and the Quarks 6.11.1 From SU(2) to SUß) 6.11.2 The arrival of the quarks 6.11.3 The breaking of SU(3) 6.11.4 Colour The Present Table of ElementaryParticles Problems
Contents 7 Relativistic Wave Equations 7.1 7.2 7.3 7.4 7.5 8 Towards a Relativistic Quantum Mechanics 8.1 8.2 8.3 8.4 9 Introduction The Klein-Gordon Equation 7.2.1 The Green’s functions 7.2.2 Generalisations The Dirac Equation 7.3.1 Introduction 7.3.2 Weyl and Majorana equations 7.3.3 The Dirac equation 7.3.4 The 7 matrices 7.3.5 The conjugate equation 7.3.6 The standard representation 7.3.7 Lagrangian, Hamiltonian and Green functions 7.3.8 The plane wave solutions Relativistic Equations for Vector Fields 7.4.1 The Maxwell field 7.4.2 Massive spin-1 field 7.4.3 Plane wave solutions Problems Introduction The Klein-Gordon Equation The Dirac Equation 8.3.1 Introduction 8.3.2 The conserved current 8.3.3 The coupling with the electromagnetic field 8.3.4 The non-relativistic limit of the Dirac equation 8.3.5 Negative energy solutions 8.3.6 Charge conjugation 8.3.7 CPT symmetry 8.3.8 Chirality 8.3.9 Hydrogenoid systems Problems From Classical to Quantum Mechanics 9.1 9.2 9.3 Introduction Quantum Mechanics and Path Integrals 9.2.1 The Feynman postulate 9.2.2 Recovering quantum mechanics Problems їх 167 167 167 168 172 173 173 174 175 176 177 178 179 180 183 184 186 187 188 191 191 191 192 192 193 193 194 195 196 198 199 199 204 207 207 208 211 211 219 10 From Classical to Quantum Fields. Free Fields 10.1 Introduction 220 220
x Contents 10.2 10.3 10.4 10.5 10.6 The Klein-Gordon Field 10.2.1 The canonical quantisation 10.2.2 The path integral quantisation The Dirac Field 10.3.1 The canonical quantisation 10.3.2 The path integral quantisation The Maxwell Field 10.4.1 The canonical quantisation 10.4.2 The path integral quantisation Massive Spin-1 Fields Problems 11 Interacting Fields 11.1 11.2 11.3 11.4 11.5 11.6 Introduction ֊ The Axioms of Quantum Field Theory General Results: Invariance under CPT and the Spin-Statistics Theore m 11.2.1 The CPT theorem 11.2.2 The spin-statistics theorem Examples of Interacting Theories Interacting Quantum Field Theories The Perturbation Expansion 11.5.1 The configuration space Feynmanrules 11.5.2 The momentum space Feynman rules 11.5.3 Feynman rules for quantum electrodynamics 11.5.4 Feynman rules for other theories Problems 12 Scattering in Quantum Field Theory 12.1 12.2 12.3 12.4 12.5 12.6 The Asymptotic Theory 12.1.1 The asymptotic states 12.1.2 The asymptotic fields The Reduction Formula The Feynman Rules for the Scattering Amplitude 12.3.1 One scalar field 12.3.2 Quantum electrodynamics The Transition Probability 12.4.1 The cross section 12.4.2 The decay rate Examples 12.5.1 The electron Compton scattering 12.5.2 The electron-positron annihilation into a muon pair 12.5.3 The charged pion decay rate Problems 13 Gauge Interactions 13.1 The Abelian Case 221 221 224 226 226 228 230 230 233 235 235 237 237 239 239 240 241 243 244 244 246 249 249 251 253 253 253 255 256 259 259 259 261 262 263 263 263 266 269 271 273 273
Contents 13.2 13.3 13.4 13.5 Non-Abelian Gauge Invariance and Yang-Mills Theories 13.2.1 Quantisation of Yang-Mills theories 13.2.2 Feynman rules for Yang-Mills theories Gauge Theories on a Space-Time Lattice Brief Historical Notes Problems 14 Spontaneously Broken Symmetries 14.1 14.2 14.3 14.4 Introduction Global Symmetries 14.2.1 Simple examples 14.2.2 A field theory model 14.2.3 Goldstone theorem Gauge Symmetries 14.3.1 The Abelian model 14.3.2 The non-Abelian case Problems 15 The Principles of Renormalisation 15.1 15.2 15.3 15.4 The Need for Renormalisation The Theory of Renormalisation 15.2.1 The power counting 15.2.2 Régularisation 15.2.3 Renormalisation The Renormalisation Group 15.3.1 Renormalisation group in dimensional régularisation Problems 16 The Electromagnetic Interactions 16.1 Introduction 16.2 Quantum Electrodynamics 16.3 Problems 17 Infrared Effects 17.1 Introduction 17.2 Examples of Infrared Divergent Terms in Perturbation Theory 17.3 Infrared Phenomena in QED 17.3.1 Tree-level (O(a2)) electron Coulomb scattering 17.3.2 One-loop corrections to the electron Coulomb scattering 339 17.3.3 Infrared divergence of the photon emission amplitude 17.3.4 The O(o3) measured cross section is infrared finite 17.4 The Summation to All Orders 17.5 The QED Asymptotic Theory Revisited 17.5.1 The Faddeev-Kulish dressed electron states 17.5.2 Coulomb scattering of a dressed electron 17.6 Problems xi 276 279 280 281 283 286 287 287 288 288 290 293 295 295 299 300 304 304 305 306 308 311 320 325 326 329 329 330 334 335 335 335 337 337 341 342 342 343 343 346 348
xii Contents The 1Weak Interactions 18.1 Introduction 18.2 The Fermi Theory 18.3 Parity Violation 18.4 Vector vs Scalar: The Neutrino Helicity 18.5 The V — A Theory Leptonic Interactions 18.6 18.6.1 Muon decay 18.6.2 Other purely leptonic weak processes Semi-Leptonic Interactions 18.7 18.7.1 Strangeness conserving semi-leptonic weak interactions 18.7.2 Strangeness violating semi-leptonic weak interactions Purely Hadronic Weak Interactions 18.8 The Intermediate Vector Boson (IVB) Hypothesis 18.9 18.10 Charged and Neutral Currents 18.11 CP Violation 18.12 Problems 349 349 350 351 356 357 359 360 362 363 363 376 378 378 379 380 385 A Gauge Theory for the Weak and Electromagnetic Interactions Introduction 19.1 The Rules of Model Building 19.2 The Lepton World 19.3 19.4 Extension to Hadrons Problems 19.5 388 388 389 389 393 401 Neutrino Physics A Blessing and a Curse 20.1 20.1.1 The first neutrino beams 20.1.2 Gargamelle and the neutral currents 20.1.3 Very high energy neutrino beams Neutrino Masses and Oscillations 20.2 20.2.1 Introduction 20.2.2 Experimental evidence for neutrino oscillations 20.2.3 The neutrino mass matrix 20.2.4 Neutrinoless double ß decay 20.3 Problems 405 405 406 409 412 413 413 416 418 420 420 The Strong Interactions Strong Interactions are Complicated 21.1 Strong Interactions are Simple 21.2 Asymptotic Freedom 21.3 Quantum Chromodynamics 21.4 21.4.1 Quantum chromodynamics in perturbation theory 21.4.2 Quantum chromodynamics and hadronic physics Problems 21.5 422 422 423 426 426 430 437 440
Contents 22 The Standard Model and Experiment 22.1 22.2 22.3 22.4 22.5 22.6 22.7 22.8 A Unified Picture Classic Experiments 22.2.1 Experimental discovery of charmed particles 22.2.2 Stochastic cooling and the discovery of W± and Z 22.2.3 The discovery of the heavy quarks and of the Brout-Englert-Higgs boson Hadron Spectroscopy The Cabibbo-Kobayashi-Maskawa Matrix and CP Violation 22.4.1 The matrix elements 22.4.2 Unitarity 22.4.3 CP violation The Neutrino Matrix and CP Violation Questions of Flavour 22.6.1 A brief history of flavour 22.6.2 Rare flavour decays An Overall Fit Problems 23 Beyond the Standard Model 23.1 23.2 23.3 Many Questions Beyond, but How? 23.2.1 Grand unified theories (GUTs) 23.2.2 The trial of scalars 23.2.3 Supersymmetry, or the defence of scalars Closing Remarks Appendix A A Collection of Useful Formulae A.l A.2 A.3 Index Units and Notations Free Fields Feynman Rules for Scattering Amplitudes xiii 442 442 442 443 446 449 455 462 462 463 465 469 470 470 471 473 477 479 479 481 481 482 483 487 488 488 489 490 493 |
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| id | DE-604.BV047512409 |
| illustrated | Not Illustrated |
| index_date | 2024-07-03T18:22:22Z |
| indexdate | 2024-07-10T09:14:08Z |
| institution | BVB |
| isbn | 9780192844217 9780192844200 |
| language | English |
| oai_aleph_id | oai:aleph.bib-bvb.de:BVB01-032913258 |
| oclc_num | 1286856959 |
| open_access_boolean | |
| owner | DE-20 DE-706 DE-19 DE-BY-UBM DE-11 DE-703 |
| owner_facet | DE-20 DE-706 DE-19 DE-BY-UBM DE-11 DE-703 |
| physical | xiii, 506 Seiten Diagramme |
| publishDate | 2021 |
| publishDateSearch | 2021 |
| publishDateSort | 2021 |
| publisher | Oxford University Press |
| record_format | marc |
| spelling | Iliopoulos, Jean 1940- Verfasser (DE-588)1120028825 aut Elementary particle physics the standard theory J. Iliopoulos and T.N. Tomaras Oxford Oxford University Press [2021] © 2021 xiii, 506 Seiten Diagramme txt rdacontent n rdamedia nc rdacarrier Standardmodell Elementarteilchenphysik (DE-588)4297710-1 gnd rswk-swf Elementarteilchenphysik (DE-588)4014414-8 gnd rswk-swf Particles (Nuclear physics) Standard model (Nuclear physics) Elementarteilchenphysik (DE-588)4014414-8 s DE-604 Standardmodell Elementarteilchenphysik (DE-588)4297710-1 s Tomaras, Theodore N. 1952-2021 Verfasser (DE-588)1245796690 aut Digitalisierung UB Bayreuth - ADAM Catalogue Enrichment application/pdf http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032913258&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA Inhaltsverzeichnis |
| spellingShingle | Iliopoulos, Jean 1940- Tomaras, Theodore N. 1952-2021 Elementary particle physics the standard theory Standardmodell Elementarteilchenphysik (DE-588)4297710-1 gnd Elementarteilchenphysik (DE-588)4014414-8 gnd |
| subject_GND | (DE-588)4297710-1 (DE-588)4014414-8 |
| title | Elementary particle physics the standard theory |
| title_auth | Elementary particle physics the standard theory |
| title_exact_search | Elementary particle physics the standard theory |
| title_exact_search_txtP | Elementary particle physics the standard theory |
| title_full | Elementary particle physics the standard theory J. Iliopoulos and T.N. Tomaras |
| title_fullStr | Elementary particle physics the standard theory J. Iliopoulos and T.N. Tomaras |
| title_full_unstemmed | Elementary particle physics the standard theory J. Iliopoulos and T.N. Tomaras |
| title_short | Elementary particle physics |
| title_sort | elementary particle physics the standard theory |
| title_sub | the standard theory |
| topic | Standardmodell Elementarteilchenphysik (DE-588)4297710-1 gnd Elementarteilchenphysik (DE-588)4014414-8 gnd |
| topic_facet | Standardmodell Elementarteilchenphysik Elementarteilchenphysik |
| url | http://bvbr.bib-bvb.de:8991/F?func=service&doc_library=BVB01&local_base=BVB01&doc_number=032913258&sequence=000001&line_number=0001&func_code=DB_RECORDS&service_type=MEDIA |
| work_keys_str_mv | AT iliopoulosjean elementaryparticlephysicsthestandardtheory AT tomarastheodoren elementaryparticlephysicsthestandardtheory |