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Spectroscopic Investigation of  Hypernuclei in the Wide Mass Region by the (e,e’K + ) Reaction Chunhua Chen Hampton University Nov.6,2010/DNP.

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Presentation on theme: "Spectroscopic Investigation of  Hypernuclei in the Wide Mass Region by the (e,e’K + ) Reaction Chunhua Chen Hampton University Nov.6,2010/DNP."— Presentation transcript:

1 Spectroscopic Investigation of  Hypernuclei in the Wide Mass Region by the (e,e’K + ) Reaction Chunhua Chen Hampton University Nov.6,2010/DNP

2 Outline Experimental Goal Experimental Setup Analysis Analysis flow chart Analysis difficulties and status Conclusion and to do

3 Experimental Goal The 3 rd Generation (e,e’K + ) Hypernuclear Spectroscopy in JLab-HallC  Medium - heavy hypernuclear spectroscopy 52 Cr(e,e’K + ) 52  V   hyperon bound in the mean field  quark picture vs. conventional picture  Light  hypernuclear spectroscopy   N interaction, ls coupling, Charge Symmetry Breaking p shell hypernuclei : 12  B, 7 Λ He, 10 Λ Be, and 9  B  Calibration by the elementary process p(e,e’K + )  or  : H 2 O and CH 2

4 Experimental Setup HKS detector HES detector 2.344GeV e beam e’ K+K+ HES HKS New splitter Target

5 Experimental Setup HKS detector HES detector 2.344GeV e beam e’ K+K+ HES HKS New splitter Target 6.5°

6 Experimental Setup HKS-D KDC1 KDC2 KTF1X KTF1YKTF2X KACKWC KLC HES-D e’ EHOD2 EHOD 1 EDC2 EDC1 HKS detector package HES detector package

7 Analysis Flow Chart Tracking (KDC) Tracking (KDC) TOF (Hodoscopes) TOF (Hodoscopes) KID (AC,WC,LC) KID (AC,WC,LC) HKS Focal Plane (X,X’,Y,Y’,T fp ) HKS Focal Plane (X,X’,Y,Y’,T fp ) HKS Optics (HKS+Splitter) Optics (HKS+Splitter) HKS Target Plane (X’, Y’, P, T tar ) HKS Target Plane (X’, Y’, P, T tar ) Tracking (EDC) Tracking (EDC) TOF (Hodoscopes) TOF (Hodoscopes) HES Focal Plane (X,X’,Y,Y’, T fp ) HES Focal Plane (X,X’,Y,Y’, T fp ) HES Optics (HES+Splitter) Optics (HES+Splitter) HES Target Plane (X’, Y’, P, T tar ) HES Target Plane (X’, Y’, P, T tar ) Coincident (RF ) Coincident (RF ) Kinematics Correction (Beam, Target effects, Momentum, Angular) Kinematics Correction (Beam, Target effects, Momentum, Angular) Missing Mass Raw Data Need to do Data & Info Lambda&Sigma Spectra Lambda&Sigma Spectra Geant4 Simulation HKS Sieve Slit HES Sieve Slit

8 Analysis Difficulty 1-HKS Tracking Sources: High multiplicity *Multiple hit TDCs are used for both drift chambers and timing counters; *Because of the high rate of background particles, there might be several kinds of particles among those hits; Number of hits per trigger on one layer of HKS drift chamber for different target Number of hits per trigger on one layer of timing counter For target 52 Cr

9 Analysis Difficulty 1-HKS Tracking * Original tracking code do too much “average”, which is unable to handle our special case. 3. Individual start time is calculated for almost every track by linear projection Example: t0 11 = t 11 -(t 21 -t 11 )*d2/d1 DC1 DC2 1X 2X   SP t 21 t 12 t0 21 t 12 t 11 t0 22 t0 12 t0 11 d2 d1 2. Pre-tracking cut Purpose of software improvement: 1.Cut off the background; 2.To match the hits on the drift chambers and timing counters; 1.Choose the most possibility hits by single chamber track fitting;

10 Analysis Difficulty 1-HKS Tracking The newest tracking algorithm works well for light target. However, for the heavy target ( 52 Cr), the cut which I used would cause event lost. We are still working for it. Completely new tracking code which can handle high multiplicity may need to be developed. Original (Target: CH 2 ) After projecting cut Individual start time is calculated (cm)

11 Analysis Difficulty 2-Unsymmetrical Forward Optics -HKS- The survey result has been included in the geant4 code Purple: Simulation Blue: Real SS data br10 br6 br1 br5br2 br10 br5 br1 br2 br6

12 Analysis Difficulty 2-Unsymmetrical Forward Optics -HKS- Purple: Real HKS SS data Blue: Geant4 Simulation Target BeamKaon Q1 Q2 Splitter field contour on xoz plane The leakage of splitter fringe field causes the cross talk between the splitter and quadrupole

13 Analysis Difficulty 2-Unsymmetrical Forward Optics -HKS- The asymmetry functions are introduced and tuned for HKS quadrupole field Bx and By, independently.

14 Analysis Difficulty 2-Unsymmetrical Forward Optics -HKS-

15 Analysis Difficulty 2-Unsymmetrical Forward Optics -HES- Purple: Geant4 Simulation Green: Real HES SS data

16 Conclusion And To Do The third-generation (e,e’k + )at Jlab hallC data taking has been successfully done at the end of 2009 ; The detector calibration of the experiment has almost done; The forward HKS optical matrices are almost ready;  The algorithm of HKS tracking for high luminosity target need to be improved;  HES forward optics needed to be done;  Kinematics calibration ;  Iteration of kinematics calibration and optical calibration.

17

18 Cases: 1.If there are both hits inside and outside the timing window-choose the inside ones 2.If there are only hits which is later than the timing window- choose the earliest one. (?’ hits across wire ‘) 3.If there are only hits before the timing window- choose the latest one 4.If there are several hits inside the timing window- combine all of them with the hits on other layers, decide “left or right” and fit them, choose the one with minchi2 Precondition: (multiple combination).le.10 (98%) (test by run76312:9.05%) * Timing window :Defined by the distribution of the Drift Time (-5ns<dt<125ns)

19 Analysis Difficulty 1-HKS Tracking Sources: 1.High accidental background Mean time distribution of one layer of timing counter run#76989( 52 Cr) Run76989( 52 Cr) Run76312(CH 2 ) Drift timing distribution

20 Analysis Difficulty 2-Unsymmetrical Forward Optics -HKS- My improvement:  Q1 X-Asymmetry Factor Functions  Bx: F(x)=1.0+0.12/17.0*(x+7)+0.0075*(x+7) 2 /17 2,(X>-15)  By: F(x)=1.0+0.2/17.0*(x+7)-0.004*(x+7) 2 /17 2,(x>-7)  Q1 Y-Asymmetry Scaling Factor  If y>=0,Bx=Bx*0.994; if y<0, Bx=Bx  Scaling Factor Spl:0.9852916 Q1: 0.969024 Dipole:0.98678  Q2:0.933256  Focal Plane residual Y and Yp correction  Yfp=(Yfp-1.0)*F(Xpfp)+1.0 F(Xpfp)=1.0+0.25/300.0*(Xpfp+150)- 0.10*(pow(Xpfp+150),2))/pow(300,2)  Ypfp= (Ypfp+1.0)*G(Xfp)-1.0 G(Xfp)=1.0+0.19/300.0*(Xfp+150)-0.10*(pow(Xfp+150),2))/pow(300,2)

21 Experimental Setup HKS-D KDC1 KDC2 KTF1X KTF1YKTF2X KACKWC KLC HES-D e’ EHOD2 EHOD 1 EDC2 EDC1 HKS detector package HES detector package

22 Data summary Quasi-free  & expected g.s. yields Cross section of QF  is assumed as 0.2*A 0.8 [b/sr] # of g.s is calculated as (# of as )*(g.s cross section)/(QF  cross section) Cross Section of 9 Be is derived by Progress of Theoretical Physics Supplement No.117 (1994) pp. 151-175 (M. Sotona and S. Frullani) and other cross sections are summarized in E05-115 experiment proposal (JLab PAC 28 and 33). TargetNumber of Quasi-Free  (observed) Quasi-Free  Cross Section (assumed) Hypernuclei (g.s) Cross Section (assumed) Expected number of g.s 7 Li6.4 x10 4 1.0  b/sr 21 nb/sr1300 9 Be4.5 x10 4 1.2  b/sr 4 nb/sr150 10 B4.8 x10 4 1.3  b/sr 21 nb/sr780 12 C3.4 x10 4 1.5  b/sr 112 nb/sr2500 52 Cr1.4 x10 4 4.7  b/sr 69 nb/sr210

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