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Polarisation transfer in hyperon photoproduction near threshold Tom Jude D I Glazier, D P Watts The University of Edinburgh.

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Presentation on theme: "Polarisation transfer in hyperon photoproduction near threshold Tom Jude D I Glazier, D P Watts The University of Edinburgh."— Presentation transcript:

1 Polarisation transfer in hyperon photoproduction near threshold Tom Jude D I Glazier, D P Watts The University of Edinburgh

2 Talk Overview Hyperon Photoproduction Polarisation observables Identifying strange decay channels Kinematic analysis Preliminary asymmetry measurements and extraction of C X and C Z T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

3 Hyperon Photoproduction  p  K + +  p +  - (~ 64%) n +  0 (~ 36%)   p  K + +    Important for investigations of nucleon resonances A crucial test of QCD based chiral perturbation theories in the strange quark sector T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

4 Polarisation observables Spin observables – a new constraint for reaction models and baryon resonance structure Circularly polarised photons - polarisation transferred to the recoiling hyperon Characterised by the observables C X and C Z : P X = -P  C X, P y = P, P Z = -P  C z P i = polarisation transferred along axis i, P  = circular polarisation of photon beam  decay is a weak decay (parity violating) Hyperon polarisation - measured by the distribution of it’s decay products T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

5 Linear or circular polarisation of the photon beam Angle between photon polarisation and reaction plane Polarisations transferred with a circularly pol. beam Polarisations transferred with a linearly pol. beam Sixteen different observables in total - beam-target, beam-recoil, target-recoil (all double polarisation), & single polarisation observables Polarisation observables T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

6 R.A. Adelseck and B. Saghai. Phys Rev C., 42:108, 1990 Centre of mass frame:  rest frame: Beam-recoil measurements Axis defined as:k = Photon beam momentum, q = momentum of the recoiling K + in CM frame T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

7 Beam-recoil measurements 1 R.A. Adelseck and B. Saghai. Phys Rev C., 42:108, 1990 N +/- = number of events detected for a +/- beam helicity P  = extent of polarisation of the photon beam  = weak decay parameter (0.65 +/- 0.04) = a “dilution factor” in the K +  0 channel Flipping the polarisation direction cancels acceptance factors in the detector Measure the polar angle,  i, from axis i in the  rest frame Gives an asymmetry, A, of decay products 1 : T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

8 Previous measurements Previous measurements of C x and C z at the CLAS collaboration at JLab 1 : 1 R. Bradford et al. (The CLAS Collaboration). arXiV:nucl-ex/0611034v1, 2006  K cm = recoiling K + angle in the CM frame E   = Photon energy W = C of M energy T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

9 Identifying strange mesons K +     (~ 63%) Mean lifetime of K + ~ 12 ns     (~ 21%) First cluster from K + < 3ns Secondary cluster from K +      decay > 10ns A new method of tagging a strange meson reaction channel Identify the K + decay within the crystals of the Crystal Ball T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

10 Mean life ~ 11.6 ns Energy of the secondary cluster Time of the secondary cluster Beam energy for events with a secondary cluster Energy Vs time of secondary clusters Threshold energy for strangeness production T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

11  E-E plot for all data  E-E plot for events with a secondary cluster Graphical cut for K + ID T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

12 Kinematic considerations Correcting for the vertex position of the decay:   n +  0: Before Correction After Correction Invariant mass of two photons in coincidence   mass (~ 135 MeV) T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

13 Kinematic considerations Simulated data:Experimental data: Neutron detection from  decay: Calculate neutron momentum from the  and  0 momentum. Angle difference between neutron and detected neutral particle:  p  K + +   p  K + +   T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

14  z asymmetry measurements 0.9 – 1.0 GeV1.0 – 1.1 GeV 1.1 – 1.2 GeV1.2 – 1.3 GeV 1.3 – 1.4 GeV1.4 GeV + T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

15  x asymmetry measurements 0.9 – 1.0 GeV1.0 – 1.1 GeV 1.1 – 1.2 GeV1.2 – 1.3 GeV 1.3 – 1.4 GeV1.4 GeV + T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

16 Preliminary asymmetry measurements C Z at different energy intervals To do: Suppress K +  0 channel – identify the gamma decay of the  K + energy loss correction Distribution of the decay:  ’p  - Measure the absolute cross sections 1 Measure P - unpolarised beam and target C X at different energy intervals 1 Recent discrepancies in cross sections between CLAS and SAPHIR data: T Mart. arXiv:0803.0601v1 [nucl-th], 5 th March 2008 T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

17 Secondary cluster energy in TAPS /MeVTiming of secondary cluster in TAPS /ns Simulation of K + detection in TAPS Theta angle of K + detection 100 MeV energy sum in the CB 330 MeV energy sum in the CB T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

18 K + detection in TAPS with a deuteron target Secondary cluster energy in TAPS /MeVTiming of secondary cluster in TAPS /ns Theta angle of K + detection T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

19 Summary New technique of identifying K + mesons (~ 1000 K + identified per hour) (~ 5% efficiency for K +  from simulation, K+ detection efficiency ~20% over all CB angles) The first detection of strange meson photoproduction at MAMI-C First preliminary measurements of C X and C Z at threshold energies More data needed, lower energy sum in the Crystal Ball Opportunity to measure more polarisation observables with polarised targets and/or beam? T Jude Polarisation transfer in hyperon photoproduction near threshold A2 collaboration meeting, Dubrovnik, April 2008

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