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Hypernuclear Production with Hadronic and Electromagnetic Probes Radhey Shyam Saha Institute of Nuclear Physics, Kolkata, India Z.Zt. Institut f. Theo.

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Presentation on theme: "Hypernuclear Production with Hadronic and Electromagnetic Probes Radhey Shyam Saha Institute of Nuclear Physics, Kolkata, India Z.Zt. Institut f. Theo."— Presentation transcript:

1 Hypernuclear Production with Hadronic and Electromagnetic Probes Radhey Shyam Saha Institute of Nuclear Physics, Kolkata, India Z.Zt. Institut f. Theo. Physik, Uni Giessen, Germany 1.Introduction - Production of Hypernuclei 2. Brief sketch of the theoretical model 3. Results, cross sections, spectroscopy 4. Conclusions PLAN OF THE PRESENTATION Coll. U. Mosel, H. Lenske, S. Bender

2 (K‾,  ‾) reaction Production of  Hypernuclei (  +, K + ) reaction K - stopped + A Z  A  Z +  - K - + n   +  - Strangeness exchange  + + n   + K + ( , K + ) reaction  + p   + K + (e, e’ K + ) reaction  * + p   + K + p + p  p +  + K + (p, K + ) reaction Associated strangeness production

3 Low momentum transfer at forward angles  only substitutional states are populated. Momentum transfer larger than the Fermi momentum  (n-hole,  -particle) configuration in a series of orbits (even deepest one) (K‾,  ‾) reaction (  +, K + ) and ( , K + ) reactions Stretched states with maximum spin are preferentially excited. Momentum Transfer in various reactions on a 12 C Target (p,K + ) reaction momentum transfers are much large nuclear bound state wave functions are sampled in regions not reached in other reactions. ( , K+) and (e,e’K + ) reactions can also excite unnatural parity stretched states

4 Amplitudes for various reactions Target emission Projectile emission A (p,K + )  B  (p,K + )  B  (p,K + )  B

5 A Covarient Description of A(h ,K + )  B reaction Effective Lagrangians at various vertices Bound state nucleon and hyperon spinors Initial and final state interactions (distorted waves). Self energies for intermediate resonances (also for Intermediate mesons in proton induced reactions)

6 Pure single particle configuration with core remaining inert Bound Hypernuclear wave function In the region of the momentum transfer of interest, the lower component of the spinor is not negligible.

7 pp  p  K + reaction: 1.582 GeV. Effective Lagrangian Model describes the pp  p  K + reaction well. Thresholds for the A(p,K+)  B reaction depends on the target mass. 0.739 GeV for 12 C and 0.602 GeV for 208 Pb. Excitation of N * (1650), N * (1710), N * (1720) baryonic resonances. R. Shyam, Phys. Rev. C 60 (1999) 055213, C73 (2006) 035211 Description of the A(p,K + )  B reaction

8 Relative Contribution of Various resonances B  ( 41  Ca ) 0d 3/2 0.753 0d 5/2 1.544 0p 1/2 9.140 0s 1/2 17.882 (MeV) Differetial cross sections on 40 Ca targets R. Shyam, H. Lenske and U. Mosel, Nucl. Phys. 764 (2006) 313

9 Application to the (  +, K + ) reaction on Nuclei N * (1710) dominates in this case too. S. Bender

10 SUMMARY AND OUTLOOK Hypernuclei can be produced by A(h ,K + )  B reactions, which are different ways of studying such systems. A fully covariant description of these reactions is essential. Hypernuclear states with low binding energies are preferentially excited. Differences in the angular distributions of the reaction on very light and heavier targets. ( , K+) and (e,e’K + ) reactions can also excite unnatural parity stretched states, an added attraction. WORK IS IN PROGRESS ON THESE REACTIONS.

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