1 / 16

GOSIA as a tool for COULEX on exotic beams

GOSIA as a tool for COULEX on exotic beams. Katarzyna Wrzosek Heavy Ion Laboratory Warsaw University. LOW - ENERGY COULOMB EXCITATION:. Well-established method to study collective excitations in nuclei.

kyeager
Download Presentation

GOSIA as a tool for COULEX on exotic beams

An Image/Link below is provided (as is) to download presentation Download Policy: Content on the Website is provided to you AS IS for your information and personal use and may not be sold / licensed / shared on other websites without getting consent from its author. Content is provided to you AS IS for your information and personal use only. Download presentation by click this link. While downloading, if for some reason you are not able to download a presentation, the publisher may have deleted the file from their server. During download, if you can't get a presentation, the file might be deleted by the publisher.

E N D

Presentation Transcript


  1. GOSIA as a tool for COULEX on exotic beams Katarzyna Wrzosek Heavy Ion Laboratory Warsaw University EWON Workshop, Prague, 10-12 May 2007

  2. LOW - ENERGY COULOMB EXCITATION: • Well-established method to study collective excitations in nuclei. • Purely electromagnetic  the only nuclear properties involved are the matrix elements of the electromagnetic multipole moments. EWON Workshop, Prague, 10-12 May 2007

  3. 208Pb • Gamma ray spectrometer EXOGAM – up to 11 segmented Ge clovers (90 and 135) • Particle detector CD-detector - annular, highly segmented double silicon strip detector (DSSD)covered angles: 23,8-54,5 in the LAB ≡ 24-145 in the C.M. frame EWON Workshop, Prague, 10-12 May 2007

  4. SIGMA available spectroscopic data (, BR, ) MINIMALIZATION PROCEDURE Errors estimation set of matrix elements shape parameters for individual states Quadrupole rotational invariant sum rules GOSIA COULEX Analysis Scheme Measured yields Experimental setup geometry:particle and  detectors Level scheme EWON Workshop, Prague, 10-12 May 2007

  5. GOSIA • GOSIA is a Rochester – Warsaw semiclassical coupled-channel Coulomb excitation least-squares search code. • Developed in early eighties by T. Czosnyka, D. Cline, C.Y.Wuand continuously upgraded to fulfill requirements of new experiments. • Used extensively for Coulomb excitation studies of a wide range of nuclei. • Typical use of GOSIA: • Fitting of the matrix elements to the experimental data. • Simulation of the experiments:to predict which  - ray will be observedto check to what extent the observation will depend on individual matrix elements. EWON Workshop, Prague, 10-12 May 2007

  6. AN EXAMPLE:COULOMB EXCITATION OF 74,76Kr @ GANIL • Coulomb excitation is the only method that can directly distinguish between different shapes of the nucleus  ideally suited to verify the shape coexistence scenario in the Kr isotopes. • Shape parameters of the two lowest 0+ states in 74Kr and 76Kr nuclei were inferred from coulomb excitation data. • The Coulomb excitation analysis were performed using the last squares fitting code GOSIA. EWON Workshop, Prague, 10-12 May 2007

  7. 508 keV 770 keV EXPERIMENTS (SPIRAL @ GANIL) 74Kr 76Kr 76Kr + 208Pb(106 pps, 4.4·A MeV) 74Kr + 208Pb (5·105 pps, 4.7·A MeV) E. Clement et al., submitted to Phys Rev C EWON Workshop, Prague, 10-12 May 2007

  8. 39.5° - 49.0° 61.4° - 71.8° 76 Kr 76Kr 71.0° - 87.7° 107.0° - 121.5° EWON Workshop, Prague, 10-12 May 2007

  9. RESULTS EWON Workshop, Prague, 10-12 May 2007

  10. QUADRUPOLE ROTATIONAL INVARIANTSUM RULES model independent description of the nuclear shape is based on a fact, that scalar products of E2 operators are rotational invariants. Operator products may be expressed using the intermediate state expansion formula: EWON Workshop, Prague, 10-12 May 2007

  11. QUADRUPOLE ROTATIONAL INVARIANTSUM RULES model independent description of the nuclear shape To get information on triaxiality the higher order invariant is needed: EWON Workshop, Prague, 10-12 May 2007

  12. RESULTS • The deformation of the 0+1 is very similar in 74Kr and 76Kr. Triaxiality parameter: • the ground state of 76Kr is prolate, while the 0+2 state has an triaxial shape. • Both, the ground state and the 0+2 state of 74Kr are triaxial,but with different  parameter. EWON Workshop, Prague, 10-12 May 2007

  13. CEA Saclay, France E.Clément A.Görgen W.Korten E.Bouchez A.Chatillon A.Hürstel Y.Le Coz A.Obertelli Ch.Theisen J.N.Wilson CEA/DIF, France J.-P. Delaroche M.Girod H.Goutte S.Péru GANIL, Caen, France J.M.Casandjian G. de France HIL Warsaw, Poland T.Czosnyka J.Iwanicki (OLL, Liverpool) P.J.Napiorkowski M.Zielińska (CEA Saclay) Oliver Lodge Lab., Liverpool, UK C.Andreoiu P.A.Butler R.-D.Herzberg D.G.Jenkins G.D.Jones Univ. Of Surrey, Guildford, UK W.N.Catford C.Timis GSI, Darmstadt, Germany F.Becker J.Gerl NBI, Copenhagen, Denmark G.Sleten Collaboration of 74,76Kr Project EWON Workshop, Prague, 10-12 May 2007

  14. ISOLDE (MINIBALL), CERN: J. Cederkall – 108Sn, 110Sn J. Iwanicki - 88Kr, 92Kr A. Hurst - 70Se I. Stefanescu – 68Cu, 70Cu J. Van de Walle – 74Zn GANIL (EXOGAM), FRANCE: E. Bouchez – 76Kr E. Clement – 74Kr M. Zielińska – 44Ar JYVASKYLA, FINLAND F. Becker – 78Kr JAEA, TOKAI, JAPAN: M. Koizumi - 66Zn, 68Zn T. Hayakawa – 78Se A. Osa - 84Kr Y. Toh – 70Ge M. Zielińska – 96Mo ANL (Gammasphere), USA A.Hayes – 178Hf Next experiments ISOLDE (MINIBALL), CERN: E. Clement – 96Sr (Jul 2007) P.Butler, P. Van Duppen - 182,184Hg (Aug 2007) JRA6INTAG List of the experiments where GOSIA was recently used EWON Workshop, Prague, 10-12 May 2007

  15. Warsaw Coulomb Excitation Group@ Heavy Ion Laboratory, Warsaw Univ. • Tomasz Czosnyka • Julian Srebrny • Jędrzej Iwanicki • Paweł Napiorkowski • Magdalena Zielińska (CEA Saclay) • Katarzyna Wrzosek • Katarzyna Hadyńska (UAM, Poznań) • Daniel Piętak (PW, Warsaw) EWON Workshop, Prague, 10-12 May 2007

  16. Thank you EWON Workshop, Prague, 10-12 May 2007

More Related