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Biblioteca

MARC Lista (tabellare)
An introduction to quarks and partons / Close, F. E.
An introduction to quarks and partons / Close, F. E.
Autore Close, F. E.
Pubbl/distr/stampa London : Academic Press, copyr. 1979
Descrizione fisica XIII, 481 p. : ill. ; 24 cm.
Disciplina 53972
Soggetto non controllato particelle
partoni
quarks
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-990000256510203316
Close, F. E.
London : Academic Press, copyr. 1979
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
An introduction to quarks and partons / Close, F. E.
An introduction to quarks and partons / Close, F. E.
Autore Close, F. E.
Pubbl/distr/stampa London : Academic Press, copyr. 1979
Descrizione fisica XIII, 481 p. : ill. ; 24 cm.
Disciplina 53972
Soggetto non controllato particelle
partoni
quarks
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-990000158460203316
Close, F. E.  
London : Academic Press, copyr. 1979
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
Chiral quark dynamics / Reinhard Alkofer, Hugo Reinhardt
Chiral quark dynamics / Reinhard Alkofer, Hugo Reinhardt
Autore Alkofer, Reinhard
Pubbl/distr/stampa Berlin [etc.] : Springer-Verlag, copyr. 1995
Descrizione fisica VIII, 114 p. : ill. ; 24 cm
Disciplina 53972167
Collana Lecture notes in physics. New series m: monographs
Soggetto non controllato quarks
ISBN 3-540-60137-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-990000219920203316
Alkofer, Reinhard  
Berlin [etc.] : Springer-Verlag, copyr. 1995
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
Compact Stars in the QCD Phase Diagram
Compact Stars in the QCD Phase Diagram
Autore Blaschke David
Pubbl/distr/stampa MDPI - Multidisciplinary Digital Publishing Institute, 2020
Descrizione fisica 1 online resource (273 p.)
Soggetto non controllato ? meson condensation
? resonances
axion QED
Beth-Uhlenbeck equation of state
chiral symmetry
cluster virial expansion
cold-dense QCD
collective flow
combustion
critical point
crystalline structure
deconfinement
dense matter
directed flow
equation of state
finite density
finite size
finite temperature
Gamma-ray bursts
general relativity
gravitational waves
Gravitational waves
GW170817
hadron-quark continuity
hadronic matter
heavy-ion collisions
hybrid compact stars
hybrid stars
hydrodynamics
in-medium effects
light cluster emission
magnetic DCDW
mass-radius relation
mass-twin stars
maximum mass
meson production
modified excluded-volume mechanism
monte carlo simulations
Mott dissociation
neutrino
neutrino emissivities
neutron star
neutron star matter
neutron stars
nuclear equation of state
nuclear matter
nuclear symmetry energy
pasta phases
phase transition
pulsars
pulsars: general
pulsars: PSR J0737 ? 3039A
pulsars: PSR J1757 ? 1854
QCD matter
QCD phase diagram
Quantum Chromodynamics
quark deconfinement
quark matter
quark stars
quark-gluon plasma
quark-hadron matter
quark-hadron phase transition
quark-hole pairing
quarks
relativistic heavy-ion collisions
speed of sound
star oscillations
stars: neutron
stellar evolution
stellar magnetic field
stellar structure
strangeness
supernova explosions
transport theory
vector interaction
ISBN 3-03921-959-6
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNINA-9910372782503321
Blaschke David  
MDPI - Multidisciplinary Digital Publishing Institute, 2020
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Particle physics : an introduction / / Robert Purdy
Particle physics : an introduction / / Robert Purdy
Autore Purdy Robert
Edizione [2nd ed.]
Pubbl/distr/stampa Duxbury, Massachusetts : , : Mercury Learning and Information, , [2022]
Descrizione fisica 1 online resource (441 pages)
Disciplina 415
Collana Providing an Essential Overview of the Topic, These Books Provide a Concise Introduction to the Essential Fields of Physics
Soggetto topico Particles (Nuclear physics)
Soggetto non controllato accelerators
atoms
colliders
detectors
quarks
string theory
ISBN 1-68392-875-X
1-68392-876-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Half-Title -- Title -- Copyright -- Dedication -- Contents -- Introduction -- Chapter 1: A History of Particle Physics -- 1.1 Atomic Theory -- 1.2 Atomic Structure -- 1.3 Forces and Interactions -- 1.4 Strange and Unexpected Developments -- 1.5 Strangeness -- 1.6 Quarks and Symmetries -- 1.7 The Standard Model of Particle Physics -- 1.8 The Current State of the Field -- 1.9 Exercises -- Chapter 2: Special Relativity -- 2.1 Lorentz Transformations -- 2.1.1 Scalars, Vectors, and Reference Frames -- 2.1.2 Special Relativity -- 2.1.3 Minkowski Space -- 2.2 Energy and Momentum in Minkowski Space -- 2.2.1 Example Calculation -- 2.2.2 Invariant Mass -- 2.3 Exercises -- Chapter 3: Quantum Mechanics -- 3.1 States and Operators -- 3.2 The Schrödinger Equation -- 3.3 Probability Current -- 3.4 Angular Momentum and Spin -- 3.5 Spin 1/2 Particles and the Pauli Matrices -- 3.6 The Hamiltonian -- 3.6.1 The Lagrangian -- 3.7 Quantum Mechanics and Electromagnetism: The Schrödinger Approach -- 3.8 Quantum Mechanics and Electromagnetism: The Pauli Equation -- 3.9 Exercises -- Chapter 4: Symmetries and Groups -- 4.1 The Importance of Symmetry in Physics -- 4.2 Discrete Symmetries -- 4.2.1 Mathematical Structure of Discrete Symmetries -- 4.2.2 Discrete Symmetries in Particle Physics -- 4.3 Continuous Symmetries -- 4.3.1 Mathematical Structure of Continuous Symmetries -- 4.3.2 Continuous Symmetries in Particle Physics -- 4.4 Exercises -- Chapter 5: Experimental Particle Physics -- 5.1 Detectors -- 5.1.1 Interactions of Particles with Matter -- 5.1.2 Early Detectors -- 5.1.3 Modern Detectors -- 5.2 Accelerators -- 5.2.1 Linear Accelerators -- 5.2.2 Cyclotrons -- 5.2.3 Synchrotrons -- 5.3 Measurable Quantities in Particle Physics: Matching Theory to Experiment -- 5.3.1 Cross-Sections -- 5.3.2 Lifetimes -- 5.4 Exercises -- Chapter 6: Particle Classification.
6.1 The Spin-Statistics Theorem -- 6.2 The Strong Force -- 6.2.1 Isospin -- 6.2.2 Flavor SU (3) -- 6.3 Color -- 6.4 Building Hadrons -- 6.4.1 Quark Content -- 6.4.2 Mass -- 6.4.3 Resonances -- 6.4.4 Larger Flavor Symmetries -- 6.5 Exercises -- Chapter 7: Relativistic Quantum Mechanics -- 7.1 The Klein-Gordon Equation -- 7.1.1 A Relativistic Schrödinger Equation -- 7.1.2 Solutions of the Klein-Gordon Equation -- 7.1.3 Conserved Current -- 7.2 The Maxwell and Proca Equations -- 7.2.1 Derivation of the Maxwell Equation -- 7.2.2 Solutions of the Maxwell Equation -- 7.2.3 Including Mass: The Proca Equation -- 7.2.4 Spin of Vector Particles -- 7.3 Combining Equations: How Do Particles Interact? -- 7.3.1 Quantum Field Theory Without the Maths -- 7.3.2 Feynman Rules -- 7.4 Exercises -- Chapter 8: The Dirac Equation -- 8.1 A Linear Relativistic Equation -- 8.2 Representations of the Gamma Matrices -- 8.2.1 The Dirac Representation -- 8.2.2 The Weyl Representation -- 8.3 Spinors and Lorentz Transformations -- 8.4 Solutions of the Dirac Equation -- 8.4.1 Basis Spinors -- 8.4.2 Spin -- 8.4.3 Antiparticles -- 8.4.4 Helicity -- 8.4.5 Chirality -- 8.5 Massless Particles -- 8.6 Charge Conjugation -- 8.7 Dirac, Weyl, and Majorana Spinors -- 8.8 Bilinear Covariants -- 8.9 Exercises -- Chapter 9: Quantum Electrodynamics -- 9.1 U(1) Symmetry in Wave Equations -- 9.2 Localizing the U(1) Symmetry -- 9.3 The Link with Classical Physics -- 9.4 A Well-Tested Theory -- 9.5 Calculations in QED -- 9.5.1 Feynman Rules for QED -- 9.5.2 Calculating Amplitudes -- 9.5.3 Calculating the Differential Cross-Section -- 9.6 Beyond Leading Order: Renormalization -- 9.7 Form Factors and Structure Functions -- 9.7.1 Electromagnetic Form Factors -- 9.7.2 Structure Functions and the Quark Model -- 9.8 Exercises -- Chapter 10: Non-Abelian Gauge Theory and Color.
10.1 Non-Abelian Symmetry in the Dirac Equation -- 10.1.1 SU(3) and Color -- 10.1.2 Localizing the SU(3) Symmetry -- 10.2 Gluon Self-Interactions -- 10.3 Strong Force Interactions -- 10.3.1 Quantum Chromodynamics -- 10.3.2 Scale-Dependence -- 10.4 High-Energy QCD -- 10.4.1 Asymptotic Freedom -- 10.4.2 Perturbative QCD -- 10.5 Low-Energy QCD -- 10.5.1 Quark Confinement -- 10.5.2 The Residual Nuclear Force -- 10.5.3 Perturbative and Lattice QCD -- 10.6 Exotic Matter -- 10.6.1 Pentaquarks and Tetraquarks -- 10.6.2 Glueballs -- 10.6.3 Quark-Gluon Plasma -- 10.7 Exercises -- Chapter 11: Symmetry Breaking and The Higgs Mechanism -- 11.1 The Weak Force as a Boson-Mediated Interaction -- 11.1.1 P Violation -- 11.1.2 C Violation -- 11.2 Renormalizability and the Need for Symmetry -- 11.3 Hidden Symmetry -- 11.3.1 Toy Model 1: Z2 Symmetry Breaking -- 11.3.2 Toy Model 2: U(1) Symmetry Breaking -- 11.3.3 Local U(1) Symmetry Breaking -- 11.3.4 The Higgs Mechanism: SU(2) x U(1) Breaking -- 11.4 Electroweak Interactions -- 11.4.1 Hypercharge and Weak Isospin -- 11.5 Exercises -- Chapter 12: The Standard Model of Particle Physics -- 12.1 Putting It All Together -- 12.2 Fermion Masses -- 12.3 Quark Mixing and the CKM Matrix -- 12.3.1 The Cabibbo Hypothesis -- 12.3.2 Neutral Mesons -- 12.3.3 More General Quark Mixing -- 12.4 CP Violation in the Weak Sector -- 12.4.1 The Electron Electric Dipole Moment -- 12.5 Successes of the Standard Model -- 12.5.1 Anomaly Cancelation -- 12.6 Problems with the Standard Model -- 12.6.1 Baryogenesis -- 12.6.2 The Hierarchy Problem -- 12.6.3 The Muon Anomalous Magnetic Moment -- 12.6.4 The Strong CP Problem -- 12.7 Exercises -- Chapter 13: Beyond the Standard Model -- 13.1 Neutrino Oscillations and the PMNS Matrix -- 13.2 The See-Saw Mechanism -- 13.3 Grand Unification -- 13.3.1 SU(5) as an Example GUT -- 13.3.2 Magnetic Monopoles.
13.4 Supersymmetry -- 13.5 Problems with Standard Model Extensions -- 13.6 Gravitons -- 13.6.1 Can We Go Further Than Spin-2? -- 13.6.2 Problems with Gravity -- 13.7 Axions -- 13.8 Dark Matter -- 13.8.1 Axions -- 13.8.2 Sterile Neutrinos -- 13.8.3 Lightest Supersymmetric Particle -- 13.8.4 Something New -- 13.9 Dark Energy and Inflation -- 13.9.1 Inflation -- 13.9.2 Dark Energy -- 13.10 The Future of Particle Physics -- 13.11 Exercises -- Appendix A: Elementary Particle Properties and Other Useful Quantities -- Appendix B: Feynman Rules -- Appendix C: Gamma Matrix Identities -- Bibliography -- Index.
Record Nr. UNINA-9910780583203321
Purdy Robert  
Duxbury, Massachusetts : , : Mercury Learning and Information, , [2022]
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Particle physics : an introduction / / Robert Purdy
Particle physics : an introduction / / Robert Purdy
Autore Purdy Robert
Edizione [2nd ed.]
Pubbl/distr/stampa Duxbury, Massachusetts : , : Mercury Learning and Information, , [2022]
Descrizione fisica 1 online resource (441 pages)
Disciplina 415
Collana Providing an Essential Overview of the Topic, These Books Provide a Concise Introduction to the Essential Fields of Physics
Soggetto topico Particles (Nuclear physics)
Soggetto non controllato accelerators
atoms
colliders
detectors
quarks
string theory
ISBN 1-68392-875-X
1-68392-876-8
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Nota di contenuto Cover -- Half-Title -- Title -- Copyright -- Dedication -- Contents -- Introduction -- Chapter 1: A History of Particle Physics -- 1.1 Atomic Theory -- 1.2 Atomic Structure -- 1.3 Forces and Interactions -- 1.4 Strange and Unexpected Developments -- 1.5 Strangeness -- 1.6 Quarks and Symmetries -- 1.7 The Standard Model of Particle Physics -- 1.8 The Current State of the Field -- 1.9 Exercises -- Chapter 2: Special Relativity -- 2.1 Lorentz Transformations -- 2.1.1 Scalars, Vectors, and Reference Frames -- 2.1.2 Special Relativity -- 2.1.3 Minkowski Space -- 2.2 Energy and Momentum in Minkowski Space -- 2.2.1 Example Calculation -- 2.2.2 Invariant Mass -- 2.3 Exercises -- Chapter 3: Quantum Mechanics -- 3.1 States and Operators -- 3.2 The Schrödinger Equation -- 3.3 Probability Current -- 3.4 Angular Momentum and Spin -- 3.5 Spin 1/2 Particles and the Pauli Matrices -- 3.6 The Hamiltonian -- 3.6.1 The Lagrangian -- 3.7 Quantum Mechanics and Electromagnetism: The Schrödinger Approach -- 3.8 Quantum Mechanics and Electromagnetism: The Pauli Equation -- 3.9 Exercises -- Chapter 4: Symmetries and Groups -- 4.1 The Importance of Symmetry in Physics -- 4.2 Discrete Symmetries -- 4.2.1 Mathematical Structure of Discrete Symmetries -- 4.2.2 Discrete Symmetries in Particle Physics -- 4.3 Continuous Symmetries -- 4.3.1 Mathematical Structure of Continuous Symmetries -- 4.3.2 Continuous Symmetries in Particle Physics -- 4.4 Exercises -- Chapter 5: Experimental Particle Physics -- 5.1 Detectors -- 5.1.1 Interactions of Particles with Matter -- 5.1.2 Early Detectors -- 5.1.3 Modern Detectors -- 5.2 Accelerators -- 5.2.1 Linear Accelerators -- 5.2.2 Cyclotrons -- 5.2.3 Synchrotrons -- 5.3 Measurable Quantities in Particle Physics: Matching Theory to Experiment -- 5.3.1 Cross-Sections -- 5.3.2 Lifetimes -- 5.4 Exercises -- Chapter 6: Particle Classification.
6.1 The Spin-Statistics Theorem -- 6.2 The Strong Force -- 6.2.1 Isospin -- 6.2.2 Flavor SU (3) -- 6.3 Color -- 6.4 Building Hadrons -- 6.4.1 Quark Content -- 6.4.2 Mass -- 6.4.3 Resonances -- 6.4.4 Larger Flavor Symmetries -- 6.5 Exercises -- Chapter 7: Relativistic Quantum Mechanics -- 7.1 The Klein-Gordon Equation -- 7.1.1 A Relativistic Schrödinger Equation -- 7.1.2 Solutions of the Klein-Gordon Equation -- 7.1.3 Conserved Current -- 7.2 The Maxwell and Proca Equations -- 7.2.1 Derivation of the Maxwell Equation -- 7.2.2 Solutions of the Maxwell Equation -- 7.2.3 Including Mass: The Proca Equation -- 7.2.4 Spin of Vector Particles -- 7.3 Combining Equations: How Do Particles Interact? -- 7.3.1 Quantum Field Theory Without the Maths -- 7.3.2 Feynman Rules -- 7.4 Exercises -- Chapter 8: The Dirac Equation -- 8.1 A Linear Relativistic Equation -- 8.2 Representations of the Gamma Matrices -- 8.2.1 The Dirac Representation -- 8.2.2 The Weyl Representation -- 8.3 Spinors and Lorentz Transformations -- 8.4 Solutions of the Dirac Equation -- 8.4.1 Basis Spinors -- 8.4.2 Spin -- 8.4.3 Antiparticles -- 8.4.4 Helicity -- 8.4.5 Chirality -- 8.5 Massless Particles -- 8.6 Charge Conjugation -- 8.7 Dirac, Weyl, and Majorana Spinors -- 8.8 Bilinear Covariants -- 8.9 Exercises -- Chapter 9: Quantum Electrodynamics -- 9.1 U(1) Symmetry in Wave Equations -- 9.2 Localizing the U(1) Symmetry -- 9.3 The Link with Classical Physics -- 9.4 A Well-Tested Theory -- 9.5 Calculations in QED -- 9.5.1 Feynman Rules for QED -- 9.5.2 Calculating Amplitudes -- 9.5.3 Calculating the Differential Cross-Section -- 9.6 Beyond Leading Order: Renormalization -- 9.7 Form Factors and Structure Functions -- 9.7.1 Electromagnetic Form Factors -- 9.7.2 Structure Functions and the Quark Model -- 9.8 Exercises -- Chapter 10: Non-Abelian Gauge Theory and Color.
10.1 Non-Abelian Symmetry in the Dirac Equation -- 10.1.1 SU(3) and Color -- 10.1.2 Localizing the SU(3) Symmetry -- 10.2 Gluon Self-Interactions -- 10.3 Strong Force Interactions -- 10.3.1 Quantum Chromodynamics -- 10.3.2 Scale-Dependence -- 10.4 High-Energy QCD -- 10.4.1 Asymptotic Freedom -- 10.4.2 Perturbative QCD -- 10.5 Low-Energy QCD -- 10.5.1 Quark Confinement -- 10.5.2 The Residual Nuclear Force -- 10.5.3 Perturbative and Lattice QCD -- 10.6 Exotic Matter -- 10.6.1 Pentaquarks and Tetraquarks -- 10.6.2 Glueballs -- 10.6.3 Quark-Gluon Plasma -- 10.7 Exercises -- Chapter 11: Symmetry Breaking and The Higgs Mechanism -- 11.1 The Weak Force as a Boson-Mediated Interaction -- 11.1.1 P Violation -- 11.1.2 C Violation -- 11.2 Renormalizability and the Need for Symmetry -- 11.3 Hidden Symmetry -- 11.3.1 Toy Model 1: Z2 Symmetry Breaking -- 11.3.2 Toy Model 2: U(1) Symmetry Breaking -- 11.3.3 Local U(1) Symmetry Breaking -- 11.3.4 The Higgs Mechanism: SU(2) x U(1) Breaking -- 11.4 Electroweak Interactions -- 11.4.1 Hypercharge and Weak Isospin -- 11.5 Exercises -- Chapter 12: The Standard Model of Particle Physics -- 12.1 Putting It All Together -- 12.2 Fermion Masses -- 12.3 Quark Mixing and the CKM Matrix -- 12.3.1 The Cabibbo Hypothesis -- 12.3.2 Neutral Mesons -- 12.3.3 More General Quark Mixing -- 12.4 CP Violation in the Weak Sector -- 12.4.1 The Electron Electric Dipole Moment -- 12.5 Successes of the Standard Model -- 12.5.1 Anomaly Cancelation -- 12.6 Problems with the Standard Model -- 12.6.1 Baryogenesis -- 12.6.2 The Hierarchy Problem -- 12.6.3 The Muon Anomalous Magnetic Moment -- 12.6.4 The Strong CP Problem -- 12.7 Exercises -- Chapter 13: Beyond the Standard Model -- 13.1 Neutrino Oscillations and the PMNS Matrix -- 13.2 The See-Saw Mechanism -- 13.3 Grand Unification -- 13.3.1 SU(5) as an Example GUT -- 13.3.2 Magnetic Monopoles.
13.4 Supersymmetry -- 13.5 Problems with Standard Model Extensions -- 13.6 Gravitons -- 13.6.1 Can We Go Further Than Spin-2? -- 13.6.2 Problems with Gravity -- 13.7 Axions -- 13.8 Dark Matter -- 13.8.1 Axions -- 13.8.2 Sterile Neutrinos -- 13.8.3 Lightest Supersymmetric Particle -- 13.8.4 Something New -- 13.9 Dark Energy and Inflation -- 13.9.1 Inflation -- 13.9.2 Dark Energy -- 13.10 The Future of Particle Physics -- 13.11 Exercises -- Appendix A: Elementary Particle Properties and Other Useful Quantities -- Appendix B: Feynman Rules -- Appendix C: Gamma Matrix Identities -- Bibliography -- Index.
Record Nr. UNINA-9910807335203321
Purdy Robert  
Duxbury, Massachusetts : , : Mercury Learning and Information, , [2022]
Materiale a stampa
Lo trovi qui: Univ. Federico II
Opac: Controlla la disponibilità qui
Preons : models of leptons, quarks and gauge bosons as composite objects / I. A. D'Souza & C. S. Kalman
Preons : models of leptons, quarks and gauge bosons as composite objects / I. A. D'Souza & C. S. Kalman
Autore D'Souza, I. A.
Pubbl/distr/stampa Singapore [etc.] : World Scientific, copyr. 1992
Descrizione fisica XII, 108 p. : ill. ; 22 cm
Disciplina 5397211
Soggetto non controllato leptoni
quarks
ISBN 981-02-1019-1
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-990000263950203316
D'Souza, I. A.  
Singapore [etc.] : World Scientific, copyr. 1992
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
Quarks : frontiers in elementary particle physics / Y. Nambu ; translated by R. Yoshida
Quarks : frontiers in elementary particle physics / Y. Nambu ; translated by R. Yoshida
Autore Nambu, Yoichiro
Pubbl/distr/stampa Philadelphia [etc.] : World Scientific, copyr. 1985
Descrizione fisica XI, 228 p. : ill. ; 21 cm.
Disciplina 539721
Soggetto non controllato particelle elementari
quarks
ISBN 9971-966-65-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-990000265380203316
Nambu, Yoichiro
Philadelphia [etc.] : World Scientific, copyr. 1985
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
Quarks : frontiers in elementary particle physics / Y. Nambu ; translated by R. Yoshida
Quarks : frontiers in elementary particle physics / Y. Nambu ; translated by R. Yoshida
Autore Nambu, Yoichiro
Pubbl/distr/stampa Philadelphia [etc.] : World Scientific, 1985
Descrizione fisica XI, 228 p. : ill. ; 21 cm.
Disciplina 539721
Soggetto non controllato particelle elementari
quarks
ISBN 9971-966-65-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-990000170160203316
Nambu, Yoichiro  
Philadelphia [etc.] : World Scientific, 1985
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui
Quarks and leptons : an introductory course in modern particle physics / Francis Halzen, Alan D. Martin
Quarks and leptons : an introductory course in modern particle physics / Francis Halzen, Alan D. Martin
Autore Halzen, Francis
Pubbl/distr/stampa New York [etc.] : John Wiley & Sons, copyr. 1984
Descrizione fisica XVI, 396 p. : ill. ; 23 cm
Disciplina 539721
Soggetto non controllato leptoni
quarks
ISBN 0-471-81187-4
Formato Materiale a stampa
Livello bibliografico Monografia
Lingua di pubblicazione eng
Record Nr. UNISA-990000265430203316
Halzen, Francis
New York [etc.] : John Wiley & Sons, copyr. 1984
Materiale a stampa
Lo trovi qui: Univ. di Salerno
Opac: Controlla la disponibilità qui