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Progress in  half lives of nuclei approaching the r-process path at N=126 José Benlliure Universidad de Santiago de Compostela, Spain INPC 2007.

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Presentation on theme: "Progress in  half lives of nuclei approaching the r-process path at N=126 José Benlliure Universidad de Santiago de Compostela, Spain INPC 2007."— Presentation transcript:

1 Progress in  half lives of nuclei approaching the r-process path at N=126 José Benlliure Universidad de Santiago de Compostela, Spain INPC 2007

2 Motivation  One of the most relevant questions of physics in the new century is the origin of heavy elements in the Universe (Connecting quarks with the cosmos, USA NRC repport 2003)  The r-process is though to be one on the main actors in the production of heavy elements in stellar nucleosynthesis  Very little is known about the stellar sites where the r-process occurs, but still less about the nuclei involved in this process  Nuclei around the waiting point A=195 are completely unexplored J. BenlliureINPC 2007

3 Motivation  Our present understanding of the r-process around A=195 is far from being complete: - shell quenching at N=126 - nuclear deformation J. BenlliureINPC 2007

4 Motivation  Our present understanding of the r-process around A=195 is far from being complete: - shell quenching at N=126 - nuclear deformation  Our goal: - investigate the production of heavy neutron-rich nuclei - measured its  -decay half-lives J. BenlliureINPC 2007

5 Production of heavy neutron-rich nuclei - Mainly abrasion of protons - Low excitation energy Projectile fragmentation in peripheral heavy-ion collisions at relativistic energies:  Experimental technique: - large fluctuation in the N/Z of the projectile residue - large fluctuations in the excitation energy induced in the collision - good isotopic identification (charge states rejection) Cold-fragmentation channels: J. BenlliureINPC 2007

6 Production of heavy neutron-rich nuclei  Experiment: 208 Pb(1 A GeV)+Be (10 7 ions/s) FRS at GSI One of the challenges of the experiment was the iden- tification of charge states  Beam energy (~ 700 A MeV)  FRS+energy degrader J. Benlliure

7 Production of heavy neutron-rich nuclei  Results: 208 Pb(1 A GeV)+Be 25 new heavy neutron-rich nuclei “south” of lead have been produced Their production cross sections allow us to investigate the predictive power of different reaction models EPAX COFRA J. BenlliureINPC 2007

8 Measurement of  half lives  Experimental technique and setup: Ion-beta time-position correlations using an active stopper Detectors: ionization chamber (reaction rejection in the stopper) 2 scintillator detectors (veto) 4 double-side Si strip detectors: surface: 5x5 cm2 thickness 1 mm 2x16 3.125 mm strips Position correlation Setting centerd on 198 Ir produced implanted J. BenlliureINPC 2007

9 Measurement of  half lives  Time correlations under complex background conditions: pulsed beam + activation due to long-lived neighbouring nuclei Spill length 3 s Cycle 10 s Implantation  decay Time Forward-time correlated  : Backward-time correlated  : J. BenlliureINPC 2007 Forward time Backward time

10 Measurement of  half lives  Fitting procedure: -   fit of the measured ratio of forward/backward correlations with simulated ratios - Fitting functions are obtained from Monte Carlo simulations including spill sequence, ion implan- tation rate,  -decay lifetime, e - background frequency, during spill and pause, and e - efficiency -The only free parameters of the fit are the lifetime (  ) and the  detection efficiency (  ) J. BenlliureINPC 2007

11 Results  Results for 195 Re (analysis during beam pause): T 1/2 = 6 +1 -1 s  = 9 s  = 30% J. BenlliureINPC 2007

12 Results  Results for 198 Ir (benchmarcking of the method): Previously measured value: T 1/2 ( 198 Ir) = 8 +3 -3 s A. Szalay et al., Radiochem. Radioanal. Letters 14/2/136 (1973) This work:  T 1/2 ( 198 Ir) = 8 +2 -2 s J. BenlliureINPC 2007

13 Results  Measured half lives:  half lives of 8 new neutron-rich nuclei and an upper limit for other 5 nuclei have been determined J. BenlliureINPC 2007

14 Results  Bechmark of model calculations: RPA ( Moller et al.) clearly overestimate the measured half lives close to the shell CQRPA ( I. Borzov et al.) assuming almost spherical nuclei but with a realistic description of first forbidden transitions describes the data close to the shell First forbidden transitions seem to play major role in  decay close to the neutron shell N=126 Some half lives may also indicate the influence of deformation J. BenlliureINPC 2007 Nuclei Exp. Data Gross theory [1] RPA(GT)+ f(Gr.Th) [2] DF3+ CQRPA [3] 203 Pt< 11 s41.1 s564.0 s12.7 s 202 Ir11 +3 -3 s8.5 s68.4 s9.8 s 201 Ir< 42 s18.5 s130.0 s 200 Ir< 30 s13.3 s124.1 s 199 Ir6 +5 -4 s96.6 s370.6 s46.7 s 198 Ir8 +2 -2 s377.1 s19.1 s 200 Os6 +4 -3 s16.0 s187.1 s6.9 s 199 Os5 +4 -2 s17.2 s106.8 s6.6 s 196 Re3 +1 -2 s5.1 s3.6 s1.4 s 195 Re6 +1 -1 s10.3 s3.3 s8.5 s 194 Re1 +0.5 -0-5 s16.1 s70.8 s2.1 s 190 Ta< 6 s8.5 s1.4 s1.5 s 189 Ta< 14 s34.7 s96.8 s10.0 s [1] T.Tachibana, et al. Proc. ENAM95, Arles, 1995, p.763 [2] P. Möller, et al. Phys. Rev. C 67, 055802 (2003) [3] I. N. Borzov Private Communication

15  We have demonstrated that it is possible to explore heavy neutron-rich nuclei Around 25 new neutron-rich nuclei close to N = 126 have been produced using cold-fragmentation reactions  It is technically possible to implant those nuclei and performe position and time correlations to determine β half lives In spite of the pulsed beam structure we have introduced a technique to evaluate the β background   half lives (or upper limits) of 13 new heavy neutron-rich nuclei near N=126 have been measured. Recent model calculations (CQRPA, I. Borzov) show an improved prediction power compared to standard RPA (Möller et al) and Gross Theory (Tachibana et al). First-forbidden transitions close to the shell and deformation far from the shell seems to strongly influence  decay of heavy neutron-rich nuclei  New measurements including  -  coincidences are being performed with RISING  New RNB facilities like RIKEN or FAIR will offer a tremendous potential to further investigate the r-process path around the waiting point A = 195 Summary and conclusions INPC 2007

16 S227-Experiment Collaboration T. Kurtukian, J. Benlliure, E. Casarejos, D. Cortina-Gil, M.Fernandez- Ordoñez, J. Pereira Universidad de Santiago de Compostela, Spain K.-H. Schmidt, F.Becker, D. Henzlova, O. Yordanov Gesellschaft für Schwerionenforschung mbH, Darmstadt, Germany F. Rejmund GANIL, Caen, France B. Blank, J.Giovinazzo, B. Jurado CENBG Bourdeaux-Gradignan, France

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