Title: COMPTON SCATTERING IN FORWARD DIRECTION IN PRIMEX DATA
1COMPTON SCATTERING IN FORWARD DIRECTION IN PRIMEX
DATA
PAWEL AMBROZEWICZ
- NORTH CAROLINA AT STATE UNIVERSITY
- FOR
- PRIMEX COLLABORATION
2- GOAL
- STUDY ? ? e ? ? ? e AT 5 GeV
- INTRODUCTION
- PRIMARY GOAL
- EXPERIMENTAL SETUP
- DATA ANALYSIS HIGHLIGHTS
- YIELD EXTRACTION
- PRELIMINARY RESULTS
- CROSS SECTIONS
3PRIMARY GOAL OF PRIMEX
TEST FUNDAMENTAL SYMMETRY PREDICTION OF LOW
ENERGY QCD AXIAL ANOMALY
- THE ANOMALY IS MANIFEST IN
- ?0 RADIATIVE DECAY AMPLITUDE/WIDTH
- EXACTLY CALCULABLE IN THE CHIRAL LIMIT
- ???? 7.7250.044 eV
- CORRECTIONS NEEDED FOR NON-VANISHING
- QUARK MASSES / MESON MIXING
- ???? 8.100.08 eV - NEXT TO LEADING ORDER
- PREDICTION
- PRECISION MEASUREMENT OF ?0 RADIATIVE WIDTH
- NEEDED (see ERIC CLINTONS TALK)
- DESIGN REQIUREIMENT
- PRECISION WITH DISCRIMINATIVE POWER
- COHERENT ?0 PHOTOPRODUCTION
- IN COULOMB FIELD OF A NUCLEUS
- DECAY WIDTH AND CROSS SECTION DIRECTLY
PROPORTIONAL - CROSS SECTION DEPENDS ON SMALL NUMBER OF
PARAMETERS
4PRIMARY GOAL OF PRIMEX
5EXPERIMENTAL SETUP
- C, Pb TARGETS
- JLAB HALL B PHOTON
- TAGGING FACILITY
- HIGH INTENSITY,
- HIGH RESOLUTION DEVICE
- (FIRST EXPERIMENT USING
- TAGGED PHOTONS PRIMAKOFF EFFECT)
- STATE-OF-THE-ART
- CALORIMETRY HyCal
- PAIR SPECTROMETER
6COMPTON SCATTERING
MEASURED QUANTITIES
- ENERGY OF INCIDENT PARTICLES
- POSITIONS AT HyCal FOR BOTH PARTICLES
- ENERGIES OF SCATTERED PARTICLES
EVENT SELECTION
- COINCIDENCE TIMING
- ENERGY-MOMENTUM CONSERVATION
- CO-PLANARITY OF EMERGENT PARTICLES
- ?e OPENING ANGLE
- FIDUCIAL REGION OF HyCal
7COMPTON SCATTERING EVENTS
- MINIMAL OPENING ANGLE/
- MINIMAL SEPARATION CUT
- ADDITIONAL CUTS SERVE
- TO MINIMIZE
- SIGNAL-TO-NOISE RATIO
8YIELD FIT DOUBLE GAUSSIAN SIGNAL FLAT
BACKGROUND
DATA
SIMULATION
TYPICAL DATA YIELD FIT
DATA / MONTE CARLO SIGNAL SHAPE COMPARISON
9YIELD FIT DOUBLE GAUSSIAN SIGNAL FLAT
BACKGROUND
10COMPTON CROSS SECTION
(mb/atom)
PRELIMINARY
11FORWARD CROSS SECTION - NC AT/UNCW/ITEP/JLAB
GROUP
12SYSTEMATIC ERROR ESTIMATION
- PHOTN FLUX
1.8 - TARGET THICKNESS
0.1 - BACKGROUND ESTIMATION
3.5 - ACCEPTANCE
2.0 - STABILITY (CALIBRATIONS)
2.0 - TOTAL
5
13DIFFERENTIAL CROSS SECTION - MIT GROUP
NO DISTINCTION BETWEEN DETECTED PARTICELS
FORCES CONSIDERING A SUM OF CROSS SECTIONS
14CONCLUSIONS
- HIGH QUALITY ?0 PHOTOPRODUCTION DATA TAKEN IN
FALL 2004 - TO CONTROL SYSTEMATIC OF THE PRIMARY PROCESS
- COMPTON CROSS SECTION MEASUREMENT NEEDED
- PRELIMINARY ANALYSIS DONE AT FEW PERCENT LEVEL
- AGREEMENT WITH THEORY OF 5
- WORK IN PROGESS TO REDUCE THE SYSTEMATICS TO
1-2 LEVEL
This project was in part supported by grants NSF
MRI PHY 0079840 and NSF PHY-060252