The spin structure of the proton [[electronic resource] /] / Steven D. Bass |
Autore | Bass Steven D |
Pubbl/distr/stampa | Singapore ; ; Hackensack, NJ, : World Scientific, c2008 |
Descrizione fisica | xi, 199 p. : ill |
Disciplina | 539.7/2123 |
Soggetto topico |
Protons
Nuclear spin Quark models Quantum chromodynamics |
ISBN |
1-281-91881-4
9786611918811 981-270-948-7 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | 1. Introduction -- 2. Spin experiments and data -- 3. Dispersion relations and spin sum rules -- 4. g1 spin sum rules -- 5. Fixed poles -- 6. The axial anomaly, gluon topology and g(0)A -- 7. Chiral symmetry and axial U(1) dynamics -- 8. QCD inspired models of the proton spin problem -- 9. The spin-flavour structure of the proton -- 10. QCD fits to g1 data -- 11. Polarized quark distributions -- 12. Polarized glue ... -- 13. Transversity -- 14. Deeply virtual comptons scattering and exclusive processes -- 15. Polarized photon structure functions -- 16. Conclusion and open questions: how does the proton spin? |
Record Nr. | UNINA-9910824767403321 |
Bass Steven D
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Singapore ; ; Hackensack, NJ, : World Scientific, c2008 | ||
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Lo trovi qui: Univ. Federico II | ||
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Spins in optically active quantum dots [[electronic resource] ] : concepts and methods / / Oliver Gywat, Hubert J. Krenner, and Jesse Berezovsky |
Autore | Gywat Oliver |
Pubbl/distr/stampa | Weinheim, : Wiley-VCH, c2010 |
Descrizione fisica | 1 online resource (221 p.) |
Disciplina | 621.38152 |
Altri autori (Persone) |
BerezovskyJesse
KrennerHubert J |
Soggetto topico |
Quantum dots - Optical properties
Nuclear spin Quantum dots |
ISBN |
1-282-38524-0
9786612385247 3-527-62898-3 3-527-62899-1 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Spins in Optically Active Quantum Dots; Contents; Preface; 1 Introduction; 1.1 Spin; 1.2 Spin-1/2 Basics; 1.3 Quantum Dots; 1.3.1 Spin-Based Quantum Information Processing with Artificial Atoms; 1.3.2 Optically Active Quantum Dots; 1.3.3 "Natural" Quantum Dots; 2 Optically Active Quantum Dots: Single and Coupled Structures; 2.1 Epitaxial Quantum Dots; 2.2 "Natural" Quantum Dots Revisited; 2.2.1 Structure and Fabrication; 2.2.2 Energy Levels and Optical Transitions; 2.3 Self-Assembled Quantum Dots; 2.3.1 Strain-Driven Self-Alignment; 2.3.2 Optical Properties and QD Shell Structure
2.4 Alternative Epitaxial Quantum Dot Systems2.4.1 Electrically Gated Quantum Dots; 2.4.2 Advanced MBE Techniques; 2.4.3 Nanowire Quantum Dots; 2.5 Chemically-Synthesized Quantum Dots; 2.5.1 Colloidal Growth; 2.5.2 Energy Level Structure and Optical Properties; 3 Theory of Confined States in Quantum Dots; 3.1 Band Structure of III-V Semiconductors; 3.1.1 Effective Mass of Crystal Electrons; 3.1.2 Spin-Orbit Interaction; 3.1.3 Band Structure Close to the Band Edges; 3.1.4 Band-Edge Bloch States; 3.1.5 Coupling of Bands and the Luttinger Hamiltonian 3.1.6 Splitting of Heavy Hole and Light Hole Bands3.1.7 Electrons and Holes; 3.2 Quantum Confinement; 3.2.1 One-Dimensional Confinement; 3.2.2 Quantum Dot Confinement; 3.3 Spherical Quantum Dot Confinement; 3.3.1 Conduction-Band States; 3.3.2 Valence Band States; 3.3.3 Deviations from a Spherical Dot Shape; 3.4 Parabolic Quantum Dot Confinement; 3.5 Extensions of the Noninteracting Single-Electron Picture; 3.5.1 Symmetry of Many-Particle States in Quantum Dots; 3.5.2 Coulomb Interaction; 3.5.3 The Concept of Excitons in Quantum Dots; 3.5.4 Carrier Configurations in the s Shell and Energies 3.6 Few-Carrier Spectra of Self-Assembled Quantum Dots3.6.1 From Ensemble to Single Quantum Dot Spectra; 3.6.2 Transition Energies of Few-Particle States; 4 Integration of Quantum Dots in Electro-optical Devices; 4.1 Tuning Quantum Dots by Electric Fields; 4.1.1 Semiconductor Diodes; 4.1.2 Voltage-Controlled Number of Charges; 4.1.3 Optically Probing Coulomb Blockade; 4.1.4 Quantum Confined Stark Effect; 4.2 Optical Cavities; 5 Quantum Dots Interacting With the Electromagnetic Field; 5.1 Hamiltonian for Radiative Transitions of Quantum Dots; 5.1.1 Electromagnetic Field 5.1.2 Nonrelativistic Electron-Photon Interaction5.1.3 Total Hamiltonian for a Quantum Dot and a Field; 5.2 Electric Dipole Transitions; 5.2.1 Electric Dipole Selection Rules; 5.2.2 Interband Transitions in a III-V Semiconductor; 5.2.3 Equivalent Classical Electric Dipole Picture; 5.2.4 Semiclassical Interaction with a Laser Field; 5.3 Magnetic Dipole Transitions; 5.4 Generalized Master Equation of the Driven Two-Level System; 5.4.1 The Driven Two-Level System; 5.4.2 System-Reservoir Approach; 5.5 Cavity Quantum Electrodynamics; 5.5.1 Strong Coupling Regime; 5.5.2 Weak Coupling Regime 5.6 Dispersive Interaction |
Record Nr. | UNINA-9910139498403321 |
Gywat Oliver
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Weinheim, : Wiley-VCH, c2010 | ||
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Lo trovi qui: Univ. Federico II | ||
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Statistical mechanics of magnetic excitations [[electronic resource] ] : from spin waves to stripes and checkerboards / / Enrico Rastelli |
Autore | Rastelli Enrico |
Pubbl/distr/stampa | Singapore ; ; Hackensack, NJ, : World Scientific, c2013 |
Descrizione fisica | 1 online resource (359 p.) |
Disciplina | 539.7/25 |
Collana | Series on advances in statistical mechanics |
Soggetto topico |
Magnetic resonance
Nuclear spin Spin excitations Spin waves Statistical mechanics |
Soggetto genere / forma | Electronic books. |
ISBN |
1-299-28129-X
981-4355-51-8 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Preface; CONTENTS; 1. Magnetic Hamiltonians; 1.1. Hydrogen Molecule Hamiltonian; 1.2. Heisenberg Hamiltonian; 1.3. Spin Wave Excitations; 1.4. Two-Spin Deviation Excitations; 1.5. Two-Spin Deviation States in a Ring; 1.6. Spin Waves in Classical Mechanics; 1.7. Heisenberg Hamiltonian for Actual Compounds; 2. Spin Waves in Ferromagnets; 2.1. Spin-Boson Transformation; 2.2. Bosonic Approach to the Heisenberg Hamiltonian; 2.3. Harmonic Approximation; 2.4. Low Temperature Thermodynamic Functions; 2.5. Application to Quasi-2D and Quasi 1D-models; 3. Interacting Spin Waves in Ferromagnets
3.1. Neutron Scattering Cross-Section3.2. Boson Green Function; 3.3. First-Order Approximation; 3.4. Second-Order Approximation; 3.5. Dyson's Equation; 3.6. Renormalization and Damping; 4. Feynman Diagrams Expansion in Ferromagnets; 4.1. Temperature Green Function and Perturbation Expansion; 4.2. First-Order Perturbation Theory; 4.3. Second-Order Perturbation Theory; 4.4. Third-order Perturbation Theory; 4.5. T-matrix Approximation; 5. Two-Magnon Bound States in Ferromagnets; 5.1. Two-Spin Deviation Eigenstates; 5.2. Bound States in 1D; 5.3. Bound States in 2D; 5.4. Bound States in 3D 5.5. Bound States in Anisotropic Ferromagnets6. Perturbation Theory in Planar Ferromagnets; 6.1. Bogoliubov Transformation; 6.2. The Dyson Matrix Equation; 6.3. First-order Perturbation Theory; 6.4. Second-Order Perturbation Theory; 7. Spin Waves in Non-Collinear Systems; 7.1. Local Axis Transformation and Boson Hamiltonian; 7.2. Harmonic Approximation and Bogoliubov Transformation; 7.3. Ground-State Configurations; 7.4. Neel Antiferromagnet; 7.5. Antiferromagnetism in Close-Packed Lattices; 7.6. Order by Quantum and Thermal Disorder; 7.7. Frustration by Competing Interactions: Square Lattice 7.8. Frustration by Competing Interactions: Triangular Lattice7.9. Frustration by Competing Interaction: Honeycomb Lattice; 7.10. Neutron Scattering Cross-Section for a Helimagnet; 8. Spin Waves in Multilayers; 8.1. Spin Green Functions and Random Phase Approximation; 8.2. Multilayers; 8.3. Bilayer; 8.4. Trilayer; 8.5. Classical Spin Waves in Multilayers; 8.6. Classical Spin Waves in a Semi-Infinite Medium; 9. Spin Waves in Systems with Long Range Interaction; 9.1. Dipole-Dipole Interaction; 9.2. Dipolar Sums and Ewald's Method; 9.3. Ground-State Configuration of ErBa2Cu3O6+x 9.4. CEF Calculation for ErBa2Cu3O6+x9.5. Spin Waves in ErBa2Cu3O7; 10. Long Range Interactions in 2D Systems; 10.1. Dipole-Dipole Interaction in 2D Systems; 10.2. Planar Rotator Model with Long Range Interactions; 10.3. Stripes and Checkerboards in 2D Ising Model; 10.4.Monte Carlo Simulation; References; Index |
Record Nr. | UNINA-9910465424503321 |
Rastelli Enrico
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Singapore ; ; Hackensack, NJ, : World Scientific, c2013 | ||
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Lo trovi qui: Univ. Federico II | ||
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Statistical mechanics of magnetic excitations : from spin waves to stripes and checkerboards / / Enrico Rastelli, Institute of Materials for Electronics and Magnetism, CNR and Department of Physics, University of Parma, Italy |
Autore | Rastelli Enrico |
Pubbl/distr/stampa | Singapore ; ; Hackensack, NJ, : World Scientific, c2013 |
Descrizione fisica | 1 online resource (xi, 346 pages) : illustrations |
Disciplina | 539.7/25 |
Collana | Series on advances in statistical mechanics |
Soggetto topico |
Spin excitations
Nuclear spin Magnetic resonance Statistical mechanics Spin waves |
ISBN |
1-299-28129-X
981-4355-51-8 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Preface; CONTENTS; 1. Magnetic Hamiltonians; 1.1. Hydrogen Molecule Hamiltonian; 1.2. Heisenberg Hamiltonian; 1.3. Spin Wave Excitations; 1.4. Two-Spin Deviation Excitations; 1.5. Two-Spin Deviation States in a Ring; 1.6. Spin Waves in Classical Mechanics; 1.7. Heisenberg Hamiltonian for Actual Compounds; 2. Spin Waves in Ferromagnets; 2.1. Spin-Boson Transformation; 2.2. Bosonic Approach to the Heisenberg Hamiltonian; 2.3. Harmonic Approximation; 2.4. Low Temperature Thermodynamic Functions; 2.5. Application to Quasi-2D and Quasi 1D-models; 3. Interacting Spin Waves in Ferromagnets
3.1. Neutron Scattering Cross-Section3.2. Boson Green Function; 3.3. First-Order Approximation; 3.4. Second-Order Approximation; 3.5. Dyson's Equation; 3.6. Renormalization and Damping; 4. Feynman Diagrams Expansion in Ferromagnets; 4.1. Temperature Green Function and Perturbation Expansion; 4.2. First-Order Perturbation Theory; 4.3. Second-Order Perturbation Theory; 4.4. Third-order Perturbation Theory; 4.5. T-matrix Approximation; 5. Two-Magnon Bound States in Ferromagnets; 5.1. Two-Spin Deviation Eigenstates; 5.2. Bound States in 1D; 5.3. Bound States in 2D; 5.4. Bound States in 3D 5.5. Bound States in Anisotropic Ferromagnets6. Perturbation Theory in Planar Ferromagnets; 6.1. Bogoliubov Transformation; 6.2. The Dyson Matrix Equation; 6.3. First-order Perturbation Theory; 6.4. Second-Order Perturbation Theory; 7. Spin Waves in Non-Collinear Systems; 7.1. Local Axis Transformation and Boson Hamiltonian; 7.2. Harmonic Approximation and Bogoliubov Transformation; 7.3. Ground-State Configurations; 7.4. Neel Antiferromagnet; 7.5. Antiferromagnetism in Close-Packed Lattices; 7.6. Order by Quantum and Thermal Disorder; 7.7. Frustration by Competing Interactions: Square Lattice 7.8. Frustration by Competing Interactions: Triangular Lattice7.9. Frustration by Competing Interaction: Honeycomb Lattice; 7.10. Neutron Scattering Cross-Section for a Helimagnet; 8. Spin Waves in Multilayers; 8.1. Spin Green Functions and Random Phase Approximation; 8.2. Multilayers; 8.3. Bilayer; 8.4. Trilayer; 8.5. Classical Spin Waves in Multilayers; 8.6. Classical Spin Waves in a Semi-Infinite Medium; 9. Spin Waves in Systems with Long Range Interaction; 9.1. Dipole-Dipole Interaction; 9.2. Dipolar Sums and Ewald's Method; 9.3. Ground-State Configuration of ErBa2Cu3O6+x 9.4. CEF Calculation for ErBa2Cu3O6+x9.5. Spin Waves in ErBa2Cu3O7; 10. Long Range Interactions in 2D Systems; 10.1. Dipole-Dipole Interaction in 2D Systems; 10.2. Planar Rotator Model with Long Range Interactions; 10.3. Stripes and Checkerboards in 2D Ising Model; 10.4.Monte Carlo Simulation; References; Index |
Record Nr. | UNINA-9910792054203321 |
Rastelli Enrico
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Singapore ; ; Hackensack, NJ, : World Scientific, c2013 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
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Statistical mechanics of magnetic excitations : from spin waves to stripes and checkerboards / / Enrico Rastelli, Institute of Materials for Electronics and Magnetism, CNR and Department of Physics, University of Parma, Italy |
Autore | Rastelli Enrico |
Pubbl/distr/stampa | Singapore ; ; Hackensack, NJ, : World Scientific, c2013 |
Descrizione fisica | 1 online resource (xi, 346 pages) : illustrations |
Disciplina | 539.7/25 |
Collana | Series on advances in statistical mechanics |
Soggetto topico |
Spin excitations
Nuclear spin Magnetic resonance Statistical mechanics Spin waves |
ISBN |
1-299-28129-X
981-4355-51-8 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
Preface; CONTENTS; 1. Magnetic Hamiltonians; 1.1. Hydrogen Molecule Hamiltonian; 1.2. Heisenberg Hamiltonian; 1.3. Spin Wave Excitations; 1.4. Two-Spin Deviation Excitations; 1.5. Two-Spin Deviation States in a Ring; 1.6. Spin Waves in Classical Mechanics; 1.7. Heisenberg Hamiltonian for Actual Compounds; 2. Spin Waves in Ferromagnets; 2.1. Spin-Boson Transformation; 2.2. Bosonic Approach to the Heisenberg Hamiltonian; 2.3. Harmonic Approximation; 2.4. Low Temperature Thermodynamic Functions; 2.5. Application to Quasi-2D and Quasi 1D-models; 3. Interacting Spin Waves in Ferromagnets
3.1. Neutron Scattering Cross-Section3.2. Boson Green Function; 3.3. First-Order Approximation; 3.4. Second-Order Approximation; 3.5. Dyson's Equation; 3.6. Renormalization and Damping; 4. Feynman Diagrams Expansion in Ferromagnets; 4.1. Temperature Green Function and Perturbation Expansion; 4.2. First-Order Perturbation Theory; 4.3. Second-Order Perturbation Theory; 4.4. Third-order Perturbation Theory; 4.5. T-matrix Approximation; 5. Two-Magnon Bound States in Ferromagnets; 5.1. Two-Spin Deviation Eigenstates; 5.2. Bound States in 1D; 5.3. Bound States in 2D; 5.4. Bound States in 3D 5.5. Bound States in Anisotropic Ferromagnets6. Perturbation Theory in Planar Ferromagnets; 6.1. Bogoliubov Transformation; 6.2. The Dyson Matrix Equation; 6.3. First-order Perturbation Theory; 6.4. Second-Order Perturbation Theory; 7. Spin Waves in Non-Collinear Systems; 7.1. Local Axis Transformation and Boson Hamiltonian; 7.2. Harmonic Approximation and Bogoliubov Transformation; 7.3. Ground-State Configurations; 7.4. Neel Antiferromagnet; 7.5. Antiferromagnetism in Close-Packed Lattices; 7.6. Order by Quantum and Thermal Disorder; 7.7. Frustration by Competing Interactions: Square Lattice 7.8. Frustration by Competing Interactions: Triangular Lattice7.9. Frustration by Competing Interaction: Honeycomb Lattice; 7.10. Neutron Scattering Cross-Section for a Helimagnet; 8. Spin Waves in Multilayers; 8.1. Spin Green Functions and Random Phase Approximation; 8.2. Multilayers; 8.3. Bilayer; 8.4. Trilayer; 8.5. Classical Spin Waves in Multilayers; 8.6. Classical Spin Waves in a Semi-Infinite Medium; 9. Spin Waves in Systems with Long Range Interaction; 9.1. Dipole-Dipole Interaction; 9.2. Dipolar Sums and Ewald's Method; 9.3. Ground-State Configuration of ErBa2Cu3O6+x 9.4. CEF Calculation for ErBa2Cu3O6+x9.5. Spin Waves in ErBa2Cu3O7; 10. Long Range Interactions in 2D Systems; 10.1. Dipole-Dipole Interaction in 2D Systems; 10.2. Planar Rotator Model with Long Range Interactions; 10.3. Stripes and Checkerboards in 2D Ising Model; 10.4.Monte Carlo Simulation; References; Index |
Record Nr. | UNINA-9910816076903321 |
Rastelli Enrico
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Singapore ; ; Hackensack, NJ, : World Scientific, c2013 | ||
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Lo trovi qui: Univ. Federico II | ||
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Transverse spin physics [[electronic resource] /] / Vincenzo Barone, Philip G. Ratcliffe |
Autore | Barone Vincenzo, Dr. |
Pubbl/distr/stampa | River Edge, N.J., : World Scientific, c2003 |
Descrizione fisica | 1 online resource (xii, 294 p. ) : ill |
Disciplina | 539.725 |
Altri autori (Persone) | RatcliffePhilip G |
Soggetto topico |
High spin physics
Nuclear spin Hadrons |
Soggetto genere / forma | Electronic books. |
ISBN |
1-281-93587-5
9786611935870 981-279-551-0 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
ch. 1. Introduction. 1.1. The transverse-spin structure function and the transversity distributions. 1.2. A first look at g2. 1.3. A prelude to transversity. 1.4. Notation and terminology. 1.5. Conventions -- ch. 2. Polarised deeply-inelastic scattering. 2.1. Basics of DIS. 2.2. The unpolarised cross-section. 2.3. Polarised cross-sections. 2.4. Target polarisation. 2.5. Forward virtual Compton scattering. 2.6. Spin asymmetries. 2.7. The partonic content of structure functions. 2.8. Mellin moments of polarised structure functions. 2.9. Experimental results on polarised structure functions. 2.10. Transverse spin in electroweak DIS -- ch. 3. The transverse-spin structure of the proton. 3.1. The quark-quark correlation matrix. 3.2. Leading-twist distribution functions. 3.3. Probabilistic interpretation of distribution functions. 3.4. Vector, axial and tensor charges. 3.5. Quark-nucleon helicity amplitudes. 3.6. The Soffer inequality. 3.7. Transverse motion of quarks. 3.8. Twist-three distributions. 3.9. Sum rules for [symbol] and g[symbol]. 3.10. T-odd distributions. 3.11. Model calculations -- ch. 4. The QCD evolution of transversity. 4.1. The renormalisation-group equation. 4.2. QCD evolution at leading order. 4.3. QCD evolution at next-to-leading order. 4.4. Fragmentation functions at next-to-leading order. 4.5. Evolution of the transversity distributions. 4.6. Evolution of the Soffer inequality and positivity constraints. 4.7. The low-[symbol] behaviour of h[symbol].
ch. 5. The g2 structure function in QCD. 5.1. The operator-product expansion - non-singlet. 5.2. Ladder-diagram summation. 5.3. Singlet g2 in LO. 5.4. Non-singlet and singlet coefficients g2 in NLO. 5.5. Sum rules for g2 in QCD. 5.6. Low-[symbol] behaviour of g2. 5.7. Twist-three evolution equations in the large-Nc limit. 5.8. Evolution of the g2 fragmentation function -- ch. 6. Transversity in Drell-Yan production. 6.1. Double transverse-spin asymmetries. 6.2. The Drell-Yan process. 6.3. Factorisation in Drell-Yan processes. 6.4. Twist-three contributions to the Drell-Yan process. 6.5. Predictions for Drell-Yan double transverse-spin asymmetries. 6.6. Transversity at RHIC -- ch. 7. Transversity in inclusive leptoproduction. 7.1. Single-particle leptoproduction: definitions and kinematics. 7.2. The partonic description of semi-inclusive DIS. 7.3. The fragmentation matrix. 7.4. Time reversal and transverse polarisation. 7.5. Leading-twist fragmentation functions. 7.6. The Collins fragmentation function. 7.7. Cross-sections and asymmetries of inclusive leptoproduction. 7.8. Factorisation in semi-inclusive DIS. 7.9. Inclusive leptoproduction at twist three. 7.10. Two-particle leptoproduction. 7.11. Leptoproduction of spin-one hadrons. 7.12. Transversity in exclusive leptoproduction processes. 7.13. Phenomenological analyses and experimental results. 7.14. Experimental perspectives -- ch. 8. Transversity in inclusive hadroproduction. 8.1. Inclusive hadroproduction with a transversely polarised target. 8.2. Transverse motion of quarks and single-spin asymmetries. 8.3. Single-spin asymmetries at twist three. |
Record Nr. | UNINA-9910454342603321 |
Barone Vincenzo, Dr.
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River Edge, N.J., : World Scientific, c2003 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Transverse spin physics [[electronic resource] /] / Vincenzo Barone, Philip G. Ratcliffe |
Autore | Barone Vincenzo, Dr. |
Pubbl/distr/stampa | River Edge, N.J., : World Scientific, c2003 |
Descrizione fisica | 1 online resource (xii, 294 p. ) : ill |
Disciplina | 539.725 |
Altri autori (Persone) | RatcliffePhilip G |
Soggetto topico |
High spin physics
Nuclear spin Hadrons |
ISBN |
1-281-93587-5
9786611935870 981-279-551-0 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
ch. 1. Introduction. 1.1. The transverse-spin structure function and the transversity distributions. 1.2. A first look at g2. 1.3. A prelude to transversity. 1.4. Notation and terminology. 1.5. Conventions -- ch. 2. Polarised deeply-inelastic scattering. 2.1. Basics of DIS. 2.2. The unpolarised cross-section. 2.3. Polarised cross-sections. 2.4. Target polarisation. 2.5. Forward virtual Compton scattering. 2.6. Spin asymmetries. 2.7. The partonic content of structure functions. 2.8. Mellin moments of polarised structure functions. 2.9. Experimental results on polarised structure functions. 2.10. Transverse spin in electroweak DIS -- ch. 3. The transverse-spin structure of the proton. 3.1. The quark-quark correlation matrix. 3.2. Leading-twist distribution functions. 3.3. Probabilistic interpretation of distribution functions. 3.4. Vector, axial and tensor charges. 3.5. Quark-nucleon helicity amplitudes. 3.6. The Soffer inequality. 3.7. Transverse motion of quarks. 3.8. Twist-three distributions. 3.9. Sum rules for [symbol] and g[symbol]. 3.10. T-odd distributions. 3.11. Model calculations -- ch. 4. The QCD evolution of transversity. 4.1. The renormalisation-group equation. 4.2. QCD evolution at leading order. 4.3. QCD evolution at next-to-leading order. 4.4. Fragmentation functions at next-to-leading order. 4.5. Evolution of the transversity distributions. 4.6. Evolution of the Soffer inequality and positivity constraints. 4.7. The low-[symbol] behaviour of h[symbol].
ch. 5. The g2 structure function in QCD. 5.1. The operator-product expansion - non-singlet. 5.2. Ladder-diagram summation. 5.3. Singlet g2 in LO. 5.4. Non-singlet and singlet coefficients g2 in NLO. 5.5. Sum rules for g2 in QCD. 5.6. Low-[symbol] behaviour of g2. 5.7. Twist-three evolution equations in the large-Nc limit. 5.8. Evolution of the g2 fragmentation function -- ch. 6. Transversity in Drell-Yan production. 6.1. Double transverse-spin asymmetries. 6.2. The Drell-Yan process. 6.3. Factorisation in Drell-Yan processes. 6.4. Twist-three contributions to the Drell-Yan process. 6.5. Predictions for Drell-Yan double transverse-spin asymmetries. 6.6. Transversity at RHIC -- ch. 7. Transversity in inclusive leptoproduction. 7.1. Single-particle leptoproduction: definitions and kinematics. 7.2. The partonic description of semi-inclusive DIS. 7.3. The fragmentation matrix. 7.4. Time reversal and transverse polarisation. 7.5. Leading-twist fragmentation functions. 7.6. The Collins fragmentation function. 7.7. Cross-sections and asymmetries of inclusive leptoproduction. 7.8. Factorisation in semi-inclusive DIS. 7.9. Inclusive leptoproduction at twist three. 7.10. Two-particle leptoproduction. 7.11. Leptoproduction of spin-one hadrons. 7.12. Transversity in exclusive leptoproduction processes. 7.13. Phenomenological analyses and experimental results. 7.14. Experimental perspectives -- ch. 8. Transversity in inclusive hadroproduction. 8.1. Inclusive hadroproduction with a transversely polarised target. 8.2. Transverse motion of quarks and single-spin asymmetries. 8.3. Single-spin asymmetries at twist three. |
Record Nr. | UNINA-9910782285003321 |
Barone Vincenzo, Dr.
![]() |
||
River Edge, N.J., : World Scientific, c2003 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Transverse spin physics [[electronic resource] /] / Vincenzo Barone, Philip G. Ratcliffe |
Autore | Barone Vincenzo, Dr. |
Pubbl/distr/stampa | River Edge, N.J., : World Scientific, c2003 |
Descrizione fisica | 1 online resource (xii, 294 p. ) : ill |
Disciplina | 539.725 |
Altri autori (Persone) | RatcliffePhilip G |
Soggetto topico |
High spin physics
Nuclear spin Hadrons |
ISBN |
1-281-93587-5
9786611935870 981-279-551-0 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto |
ch. 1. Introduction. 1.1. The transverse-spin structure function and the transversity distributions. 1.2. A first look at g2. 1.3. A prelude to transversity. 1.4. Notation and terminology. 1.5. Conventions -- ch. 2. Polarised deeply-inelastic scattering. 2.1. Basics of DIS. 2.2. The unpolarised cross-section. 2.3. Polarised cross-sections. 2.4. Target polarisation. 2.5. Forward virtual Compton scattering. 2.6. Spin asymmetries. 2.7. The partonic content of structure functions. 2.8. Mellin moments of polarised structure functions. 2.9. Experimental results on polarised structure functions. 2.10. Transverse spin in electroweak DIS -- ch. 3. The transverse-spin structure of the proton. 3.1. The quark-quark correlation matrix. 3.2. Leading-twist distribution functions. 3.3. Probabilistic interpretation of distribution functions. 3.4. Vector, axial and tensor charges. 3.5. Quark-nucleon helicity amplitudes. 3.6. The Soffer inequality. 3.7. Transverse motion of quarks. 3.8. Twist-three distributions. 3.9. Sum rules for [symbol] and g[symbol]. 3.10. T-odd distributions. 3.11. Model calculations -- ch. 4. The QCD evolution of transversity. 4.1. The renormalisation-group equation. 4.2. QCD evolution at leading order. 4.3. QCD evolution at next-to-leading order. 4.4. Fragmentation functions at next-to-leading order. 4.5. Evolution of the transversity distributions. 4.6. Evolution of the Soffer inequality and positivity constraints. 4.7. The low-[symbol] behaviour of h[symbol].
ch. 5. The g2 structure function in QCD. 5.1. The operator-product expansion - non-singlet. 5.2. Ladder-diagram summation. 5.3. Singlet g2 in LO. 5.4. Non-singlet and singlet coefficients g2 in NLO. 5.5. Sum rules for g2 in QCD. 5.6. Low-[symbol] behaviour of g2. 5.7. Twist-three evolution equations in the large-Nc limit. 5.8. Evolution of the g2 fragmentation function -- ch. 6. Transversity in Drell-Yan production. 6.1. Double transverse-spin asymmetries. 6.2. The Drell-Yan process. 6.3. Factorisation in Drell-Yan processes. 6.4. Twist-three contributions to the Drell-Yan process. 6.5. Predictions for Drell-Yan double transverse-spin asymmetries. 6.6. Transversity at RHIC -- ch. 7. Transversity in inclusive leptoproduction. 7.1. Single-particle leptoproduction: definitions and kinematics. 7.2. The partonic description of semi-inclusive DIS. 7.3. The fragmentation matrix. 7.4. Time reversal and transverse polarisation. 7.5. Leading-twist fragmentation functions. 7.6. The Collins fragmentation function. 7.7. Cross-sections and asymmetries of inclusive leptoproduction. 7.8. Factorisation in semi-inclusive DIS. 7.9. Inclusive leptoproduction at twist three. 7.10. Two-particle leptoproduction. 7.11. Leptoproduction of spin-one hadrons. 7.12. Transversity in exclusive leptoproduction processes. 7.13. Phenomenological analyses and experimental results. 7.14. Experimental perspectives -- ch. 8. Transversity in inclusive hadroproduction. 8.1. Inclusive hadroproduction with a transversely polarised target. 8.2. Transverse motion of quarks and single-spin asymmetries. 8.3. Single-spin asymmetries at twist three. |
Record Nr. | UNINA-9910819879803321 |
Barone Vincenzo, Dr.
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River Edge, N.J., : World Scientific, c2003 | ||
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Lo trovi qui: Univ. Federico II | ||
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Transversity 2005 [[electronic resource] ] : Como, Italy, 7-10 September 2005 / / editors, Vincenzo Barone, Philip G. Ratcliffe |
Pubbl/distr/stampa | Hackensack, N.J., : World Scientific Pub., c2006 |
Descrizione fisica | 1 online resource (xiii, 338 p. ) : ill |
Disciplina | 539.725 |
Altri autori (Persone) |
BaroneVincenzo, Dr.
RatcliffePhilip G |
Soggetto topico |
Nuclear spin
High spin physics Hadrons |
Soggetto genere / forma | Electronic books. |
ISBN |
1-281-37304-4
9786611373047 981-277-327-4 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Introduction. Purpose and status of the Italian Transversity Project / F. Bradamante -- Opening lecture. Transversity / M. Anselmino -- Experimental lectures. Azimuthal single-spin asymmetries from polarized and unpolarized hydrogen targets at HERMES / G. Schnell (for the HERMES Collaboration). Collins and Sivers asymmetries on the deuteron from COMPASS data / I. Horn (for the COMPASS Collaboration). First measurement of interference fragmentation on a transversely polarized hydrogen target / P. B. van der Nat (for the HERMES Collaboration). Two-hadron asymmetries at the COMPASS experiment / A. Mielech (for the COMPASS Collaboration). Measurements of chiral-odd fragmentation functions at Belle / R. Seidl ... [et al.]. Lambda asymmetries / A. Ferrero (for the COMPASS Collaboration). Transverse spin at PHENIX: results and prospects / C. Aidala (for the PHENIX Collaboration). Transverse spin and RHIC / L. Bland. Studies of transverse spin effects at JLab / H. Avakian ... [et al.] (for the CLAS Collaboration). Neutron transversity at Jefferson Lab / J. P. Chen ... [et al.] (for the Jefferson Lab Hall A Collaboration). PAX: polarized antiproton experiments / M. Contalbrigo. Single and double spin N-N interactions at GSI / M. Maggiora (for the ASSIA Collaboration). Spin filtering in storage rings / N. N. Nikolaev & F. F. Pavlov -- Theory lectures. Single-spin asymmetries and transversity in QCD / S. J. Brodsky. The relativistic hydrogen atom: a theoretical laboratory for structure functions / X. Artru & K. Benhizia. GPD's and SSA's / M. Burkardt. Time reversal odd distribution functions in chiral models / A. Drago. Soffer bound and transverse spin densities from lattice QCD / M. Diehl ... [et al.]. Single-spin asymmetries and Qiu-Sterman effect(s) / A. Bacchetta. Sivers function: SIDIS data, fits and predictions / M. Anselmino ... [et al.]. Twist-3 effects in semi-inclusive deep inelastic scattering / M. Schlegel, K. Goeke & A. Metz. Quark and gluon Sivers functions / I. Schmidt. Sivers effect in semi-inclusive deeply inelastic scattering and Drell-Yan / J. C. Collins ... [et al.]. Helicity formalism and spin asymmetries in hadronic processes / M. Anselmino ... [et al.]. Including Cahn and Sivers effects into event generators / A. Kotzinian. Comparing extractions of Sivers functions / M. Anselmino ... [et al.]. Anomalous Drell-Yan asymmetry from hadronic or QCD vacuum effects / D. Boer. "T-odd" effects in transverse spin and azimuthal asymmetries in SIDIS / L. P. Gamberg & G. R. Goldstein. T-odd effects in unpolarized Drell-Yan scattering / G. R. Goldstein & L. P. Gamberg. Alternative approaches to transversity: how convenient and feasible are they? / M. Radici. Relations between single and double transverse asymmetries / O. V. Teryaev. Cross sections, error bars and event distributions in simulated Drell-Yan azimuthal asymmetry measurements / A. Bianconi. Next-to-leading order QCD corrections for transversely polarized pp and �pp collisions / A. Mukherjee, M. Stratmann & W. Vogelsang. Double transverse-spin asymmetries in Drell-Yan and J/[symbol] production from proton-antiproton collisions / M. Guzzi ... [et al.]. The quark-quark correlator: theory and phenomenology / E. Di Salvo. Chiral quark model spin filtering mechanism and hyperon polarization / S. M. Troshin & N. E. Tyurin -- Closing lecture. Where we've been ... and where we're going / G. Bunce. |
Record Nr. | UNINA-9910451301703321 |
Hackensack, N.J., : World Scientific Pub., c2006 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|
Transversity 2005 [[electronic resource] ] : Como, Italy, 7-10 September 2005 / / editors, Vincenzo Barone, Philip G. Ratcliffe |
Pubbl/distr/stampa | Hackensack, N.J., : World Scientific Pub., c2006 |
Descrizione fisica | 1 online resource (xiii, 338 p. ) : ill |
Disciplina | 539.725 |
Altri autori (Persone) |
BaroneVincenzo, Dr.
RatcliffePhilip G |
Soggetto topico |
Nuclear spin
High spin physics Hadrons |
ISBN |
1-281-37304-4
9786611373047 981-277-327-4 |
Formato | Materiale a stampa ![]() |
Livello bibliografico | Monografia |
Lingua di pubblicazione | eng |
Nota di contenuto | Introduction. Purpose and status of the Italian Transversity Project / F. Bradamante -- Opening lecture. Transversity / M. Anselmino -- Experimental lectures. Azimuthal single-spin asymmetries from polarized and unpolarized hydrogen targets at HERMES / G. Schnell (for the HERMES Collaboration). Collins and Sivers asymmetries on the deuteron from COMPASS data / I. Horn (for the COMPASS Collaboration). First measurement of interference fragmentation on a transversely polarized hydrogen target / P. B. van der Nat (for the HERMES Collaboration). Two-hadron asymmetries at the COMPASS experiment / A. Mielech (for the COMPASS Collaboration). Measurements of chiral-odd fragmentation functions at Belle / R. Seidl ... [et al.]. Lambda asymmetries / A. Ferrero (for the COMPASS Collaboration). Transverse spin at PHENIX: results and prospects / C. Aidala (for the PHENIX Collaboration). Transverse spin and RHIC / L. Bland. Studies of transverse spin effects at JLab / H. Avakian ... [et al.] (for the CLAS Collaboration). Neutron transversity at Jefferson Lab / J. P. Chen ... [et al.] (for the Jefferson Lab Hall A Collaboration). PAX: polarized antiproton experiments / M. Contalbrigo. Single and double spin N-N interactions at GSI / M. Maggiora (for the ASSIA Collaboration). Spin filtering in storage rings / N. N. Nikolaev & F. F. Pavlov -- Theory lectures. Single-spin asymmetries and transversity in QCD / S. J. Brodsky. The relativistic hydrogen atom: a theoretical laboratory for structure functions / X. Artru & K. Benhizia. GPD's and SSA's / M. Burkardt. Time reversal odd distribution functions in chiral models / A. Drago. Soffer bound and transverse spin densities from lattice QCD / M. Diehl ... [et al.]. Single-spin asymmetries and Qiu-Sterman effect(s) / A. Bacchetta. Sivers function: SIDIS data, fits and predictions / M. Anselmino ... [et al.]. Twist-3 effects in semi-inclusive deep inelastic scattering / M. Schlegel, K. Goeke & A. Metz. Quark and gluon Sivers functions / I. Schmidt. Sivers effect in semi-inclusive deeply inelastic scattering and Drell-Yan / J. C. Collins ... [et al.]. Helicity formalism and spin asymmetries in hadronic processes / M. Anselmino ... [et al.]. Including Cahn and Sivers effects into event generators / A. Kotzinian. Comparing extractions of Sivers functions / M. Anselmino ... [et al.]. Anomalous Drell-Yan asymmetry from hadronic or QCD vacuum effects / D. Boer. "T-odd" effects in transverse spin and azimuthal asymmetries in SIDIS / L. P. Gamberg & G. R. Goldstein. T-odd effects in unpolarized Drell-Yan scattering / G. R. Goldstein & L. P. Gamberg. Alternative approaches to transversity: how convenient and feasible are they? / M. Radici. Relations between single and double transverse asymmetries / O. V. Teryaev. Cross sections, error bars and event distributions in simulated Drell-Yan azimuthal asymmetry measurements / A. Bianconi. Next-to-leading order QCD corrections for transversely polarized pp and �pp collisions / A. Mukherjee, M. Stratmann & W. Vogelsang. Double transverse-spin asymmetries in Drell-Yan and J/[symbol] production from proton-antiproton collisions / M. Guzzi ... [et al.]. The quark-quark correlator: theory and phenomenology / E. Di Salvo. Chiral quark model spin filtering mechanism and hyperon polarization / S. M. Troshin & N. E. Tyurin -- Closing lecture. Where we've been ... and where we're going / G. Bunce. |
Record Nr. | UNINA-9910777497703321 |
Hackensack, N.J., : World Scientific Pub., c2006 | ||
![]() | ||
Lo trovi qui: Univ. Federico II | ||
|