CONTENTS -- 2001 Lectures and Seminar Speakers -- 2001 List of Participants -- 2002 Lectures and Seminar Speakers -- 2002 List of Participants -- Preface -- Lectures -- Electron Scattering from Few Body Nuclei R. Alarcon and K. Slifer -- 1 Introduction -- 2 Electron Scattering -- 3 The NN Interaction -- 4 The Nuclear Electromagnetic Current Operator -- 5 Deuteron Results -- 5.1 Unpolarized Elastic Scatten'ng -- 5.2 Polarized Elastic Scattering -- Recoil Polarimetry -- Polarized Internal Targets -- 5.3 Threshold electrodisintegration -- 5.4 Unpolarized Exclusive Scattering -- 5.5 Polarized Exclusive Scattering -- Polarized Beam -- Polarized Target -- 6 A=3 Results -- 6.1 Unpolarized Elastic Scattering -- 6.2 Short-range correlations -- 6.3 Unpolarized Exclusive Scattering -- 7 Summary -- 8 References -- Strangeness in Nuclear Physics G. Franklin -- 1. Introduction -- 1.1. Strange Sector Physics -- 1.2. Extending the NN interaction to the strangeness sector -- 1.3. NN Interaction Calculations -- 1.3.1. Scattering cross sections using potential theory -- 1.3.2. T-matrix formalism using potentials and meson exchange models -- 1.3.3. General form of the NN potential -- 1.4. Connecting to nuclear structure using the shell model -- 1.4.1. Single Particle Model -- 1.4.2. The G-Matrix Effective Interaction -- 2. S=-1 Hypernuclei -- 2.1. Production Considerations -- 2.2. Calculation of Cross Sections and Identification of States -- 2.3. Details of the A Potential -- 2.3.1. Charge Symmetry Breaking -- 2.3.2. Spin Dependence -- 3. Strangeness -2 Systems -- References -- Pion Electroproduction and the Search for Nuclear Pions D. Gaskell -- 1 The Elusive Pion Excess -- 1.1 The EMC Effect -- 1.2 Polarization Transfer Experiments -- 1.3 The Drell-Yan Process -- 1.4 Discussion -- 2 Pion Electroproduction as a Probe of the Nuclear Pion Field.

3 Recent Pion Electroproduction Results -- 3.1 Quasifree Pion Electroproduction -- 3.2 Coherent Pion Electroproduction -- 3.3 Mainz Results -- 3.4 JLab E91003 Results -- 3.5 Pion Electroproduction Summary -- 4 Where Do We Go from Here? -- References -- Polarization Observables R. Gilman -- 1 Introduction -- 2 Nucleon form factors and elastic scattering -- 2.1 Recoil polarimetry -- 2.2 The Proton Form Factors at Large Q2 -- 2.3 Models -- 2.4 More Form Factors -- 3 Deuteron Structure Probed with ed Elastic Scattering -- 3.1 Elastic Scattering Cross Sections and Form Factors -- 3.2 Polarizations -- 3.3 The Deuteron Data us. Hadronic Theories -- 3.4 The Deuteron Data vs. Quark Theories -- Perturbative QCD -- Chiral Perturbation Theory -- QCD and the Deuteron -- 4 Deuteron Photodisintegration -- 4.1 Photodisintegrution Models -- Hudronic Models -- Nonperturbative Quark Models -- 4.2 Cross Sections -- 4.3 Polarization Observables -- 4.4 Understanding Deuteron Photodisintegration, Future Tests -- 5 Meson Photoproduction -- 5.1 Physical Models -- 5.2 Data vs. Calculations -- 5.3 Conclusions about Meson Photproduction -- Acknowledgments -- References -- Quark Hadron Duality: A Pedagogical Introduction S. Jeschonnek -- 1 Introduction -- 2 Inclusive Electron-Nucleon Scattering - A Review -- 2.1 Kinematics -- 2.2 Elastic Form Factors -- 2.3 Structure Functions in the Resonance Region -- 2.4 Structure Functions an the Deep Inelastic Region -- 3 What is Duality? -- 3.1 Bloom-Galman Duality -- 3.2 Application: Extracting the Proton's Magnetic Form Factor -- 3.3 Application: Extracting the Nucleon Polarization Asymmetry -- 4 Exploring the Origins of Duality -- 4.1 The Operator Product Expansion-A First Explanation -- 4.2 Introduction to a Sample Relativistic Model -- 4.3 Duality an the Model Form Factors -- 4.4 Duality in the Model Structure Functions.

5 Summary and Outlook -- Acknowledgments -- References -- Weak Interactions in Atoms and Nuclei: The Standard Model and Beyond M. Ramsey-Musolf -- 1 Introduction -- 2 Basic Ingredients of the Standard Model -- 2.1 Gauge Symmetry -- 2.2 Representations -- 2.3 Family Replication, Universality, and Mixing -- 2.4 Spontaneous Symmetry Breaking, Mass Generation, and the Haggs -- 2.5 Additional Observations -- 3 Low-Energy Tests of the Standard Model -- 3.1 Muon Decay -- 3.2 Pion Decay and Lepton Universality -- 3.3 Nuclear -Decay: Lepton-hadron CC Universality and CKM Mixing -- 3.4 Parity violating DIS and Weak Neutral currents -- 3.5 Atomic PV and Weak Neutral Currents -- 4 Physics beyond the Standard Model -- 1. Coupling Unification -- 2. The hierarchy-problem -- 3. Quantization of Electric Charge -- 4. Discrete Symmetry-Violation -- 5 . Baryon Asymmetry of the Universe (BAU) -- Acknowledgements -- References -- The Importance of Flavor Physics P. Rankin -- 1. Introduction -- 2. The Standard Model -- 2.1. The CKM Matrix. -- 3. Searching for New Physics -- 3.1. CP Violation -- 3.1.1. CP Violation in the B system -- 3.2. Possible New Physics Scenarios -- 4. Experimental Techniques and Issues -- 4.1. Cross Sections and Integrated Luminosity -- 4.2. Tagging -- 4.2.1. Combining Information -- 4.3. Background Rejection at the (4S) -- 4.3.1. Kinematic Constraints at the (4S) -- 4.3.2. Continuum Subtraction at the (4S) -- 4.3.3. Shape Variables -- 4.3.4. Fox- Wolfram Moments -- 4.4. Rapidity -- 4.5. Decay Constants -- 4.6. Spectators and Form Factors -- 4.7. Systematic errors -- 5. Experiments and Machines -- 5.1. e+e- Collider Experiments -- 5.1.1. CLEO -- 5.1.2. B Factory Detectors -- 5.2. Hadron Machine Experiments -- 5.2.1. RSVP -- 5.2.2. CDF, DO -- 5.2.3. BTeV, LHC-B -- 6. Some Interesting Measurements -- 6.1. Rare decays.

6.1.1. Signal Yield Extraction -- 6.2. B Meson Oscillation mtes -- 6.2.1. Possible Running at the Y(5S) -- 6.2.2. Amplitude Fitting -- 6.2.3. Canceling uncertainties by taking ratios -- 6.3. Measuring a CP asymmetry -- 6.3.1. Some Experimental Complications -- 7. Advantages/Disadvantages -- 8. Personal Comments -- 9. Conclusions -- Acknowledgments -- References -- Aspects of QCD A. P. Szczepaniak -- 1 Introduction -- 2 The Hadronic Zoo -- 3 Strong interactions as a field theory: QCD -- 3.1 Infrared slavery and nonperturbative methods -- 4 Survey of nonperturbative methods -- 4.1 Lattice QCD -- 4.2 QCD sum rules -- 4.3 Self consistent methods -- 4.4 The Constituent quark model -- 5 QCD vs Constituent Quarks, chiral Symmetry and dynamical symmetry breaking -- 6 Role of Gluons -- Acknowledgments -- References -- Student Abstracts -- Testing the Limits of the Single Particle Model in 16O(E,E'P) M. Andersson -- Strangeness Electro- and Photo-Production with the CLAS Spectrometer R. Bradford -- Electron Scattering from High Momentum Nucleon in Deuterium C. Butuceanu -- References -- Deeply Virtual Compton Scattering A. Camsonne -- Precise Determination of the Proton Charge Radius Experiment (RPEX) B. Clasie -- Scalar Meson to Photon Decay in a Light-Front Constituent Quark Model M. DeWitt and C. Ji -- Pion Photoproduction up to the Second Resonance Region K. Foe -- Measurement of the Neutron Electric Form Factor in D(E,E'N) P at Q2=0.6 and 0.8 (GEV/C)2 D. Glazier -- The Deep Virtual Compton Scattering Experiment D. Hayes -- SLAC Experiment E158: A Precision Measurement of the Weak Mixing Angle in Moller Scattering L. Kaufman -- References -- Radiative Vector Meson Decays at Radphi Experiment M. Kornicer -- The Go0 Experiment at JLab J. Lenoble -- Investigation of the 3HE(E,E'PN) and 16O(E,E'PN) Reactions D. Middleton.

Phase Structure of the Non-Linear o-Model with Oscillator Representation Method Y. Mischenko and C.-R. Ji -- Deeply Virtual Meson Production: Theoretical Interpretation and Experimental Considerations L. Morand -- Nuclear Medium Effects on Analyzing Power Investigated with a Proton Knockout Reaction R. Neveling -- Search for the n(1295), n(1400) and n(1480) in the Reaction pp 2 + 2 -n- at Rest J. Reinnarth -- Investigation of the E-Meson in the Reaction pp +- +-n J. Reinnarth -- 1. Motivation for a partial wave analysis of the reaction pp +- +-n -- 2. pp annihilation at rest -- 2.1. Quantum numbers of the pp system -- 2.2. Annihilation into T+T-T+T-~ -- 2.2.1. Event reconstruction -- 3. The partial wave analysis -- 3.1. The dynamical amplitude -- 3.2. The helicity amplitudes -- 3.3. Final amplitude -- 3.4. The technique of the partial wave analysis -- 4. The partial wave analysis -- 4.1. The E-meson -- 4.2. Search for further n resonances -- 4.2.1. The n(1480) -- 5. Summary and discussion -- 5.1. Possible Explanation -- 5.2. New interpretation -- References -- Real Compton Scattering at Jefferson Lab M. Roedelbronn and A. Danagoulian -- Higher Twist Corrections to Parity Violating Deep Inelastic Asymmetry G. Franco Sacco -- References -- G0: A Strange Experiment J. A. Secrest -- Measurement of the Neutron (3He) Spin Structure Functions and the Generalized GDH Sum at Jefferson Lab K. Slifer -- Focal-Plane Polarity S. Strauch -- 1 Introduction -- 2 Polarimetry -- 3 Focal Plane Polarimeter -- 4 Extraction of Polarization Observables -- Acknowledgements -- References -- Neutrino Mass MSW Oscillations & Seesaw Mechanism H. Yuksel -- Constituent Counting Rule L. Zhu.