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Measurement of Polarization Observables
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Measurement of Polarization Observables
Contents
List of Figures
List of Tables
INTRODUCTION
Prologue
Nuclear Mesons
Experiment
Quasifree Scattering
Polarization Observables and Nuclear Responses
Scattering
Scattering
Motivation
THEORY
Random Phase Approximation
Particle-Hole Interaction
The Landau-Migdal Interaction
model
Corrections to RPA
Distorted Wave Impulse Approximation
Relativistic Impulse Approximation
Density Dependent Mass Scaling
Three-Nucleon Faddeev Calculations
Green's Function Monte Carlo Technique
FORMALISM
Polarization Transfer Definitions
The Nucleon-Nucleon Frame and the Scattering Matrix
Spin Observables
The Laboratory Frame
Response Functions
The Optimal Frame
EXPERIMENTAL PROCEDURE
Accelerator Facility
HIPIOS
Cyclotrons
High-Energy Beam Transport Line
Beamline Polarimeters
Beam Structure
Target Area
Swinger
Target and Dump Magnet
Spin Precession Magnets
Neutron Polarimeters
INPOL Neutron Polarimeter
Electronics and Data Acquisition
KSU Neutron Polarimeter
DATA REDUCTION
Replay
Calibration
Pulse Height Gains
Position Offsets
Relative Timing Offsets
Global RF Offset
Polarimeter Effective Analyzing Power,
The Sector Method
Calibration
Figure-of-Merit Optimization
Angular Cuts
Pulse Height Cuts
Velocity Ratio
Optimization
Experimental Data
Data Extraction
Data Addition and Extraction
Calculation of Polarization Observables
RESULTS
Beam Polarization
Data
Data
KSU Polarimeter Data
Response Functions
CONCLUSIONS
References
About this document ...
Michael A. Lisa
Tue Apr 1 08:52:10 EST 1997