Ab initio no core shell model for light nuclei

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Presentation transcript:

Ab initio no core shell model for light nuclei Youngman Kim Rare Isotope Science Project Institute for Basic Science, Daejeon, Korea In collaboration with: Ik Jae Shin, RISP/IBS James Vary, Pieter Maris, Iowa State University Christian Forssen, Jimmy Rotureau, Chalmers University The Seventh International Symposium on Chiral Symmetry in Hadrons and Nuclei 27-30 October 2013, BeiHang Univ. Beijing, China

RAON : RISP Accelerator Complex High intensity RI beams by ISOL & IF ISOL : direct fission of 238U by p 70MeV IF by 200MeV/u, 8.3pμA 238U High quality neutron-rich RI beams 132Sn with up to ~250MeV/u, up to 108 pps More exotic RI beams by ISOL+IF

Science Program with Beam Schedule

Contents Ab initio approach Extrapolating to the infinite matrix limit Summary

Ab initio No Core Shell Model Ab initio: nuclei from first principles using fundamental interactions without uncontrolled approximations. No core: all nucleons are active, no inert core. Shell model: harmonic oscillator basis Point nucleons

Pieter Maris

Taychon II at KISTI

Ab initio No Core Gamow Shell Model

Ab initio structure and NN interaction NN (and NNN) interactions are essential inputs Unfortunately, the NN interaction at low energies needed for nuclear physics applications cannot be directly derived from QCD at the moment Ab initio theory requires, of course, a realistic NN interaction accurately describing NN scattering data and deuteron properties We use NNLOOPT and JISP16 in this study Nice to avoid NNN forces? Yes

(Andrey Shirokov)

JISP (J-matrix Inverse Scattering Potential) completely phenomenological provides a good convergence of many-body calculations, eff. interaction is not needed fitted to describe light nuclei: JISP6 up to A = 6, JISP16 up to A = 16 provides a high-quality description of NN data: chi2/datum = 1.03 up to Elab = 350 MeV for the 1992 np data base (Andrey Shirokov) A. M. Shirokov, A. I. Mazur, S. A. Zaytsev, J. P. Vary, T. A. Weber, Phys. Rev. C 70, 044005 (2004) A. M. Shirokov, J. P. Vary, A. I. Mazur, S. A. Zaytsev, T. A. Weber, Phys. Lett. B 621, 96 (2005) A. M. Shirokov, J. P. Vary, A. I. Mazur, T. A. Weber, Phys. Lett. B 644, 33 (2007)

Tachyon II, Hopper, Edison, Titan, Mira

ISU-RISP collaboration Preliminary

http://www.nndc.bnl.gov/chart/

ISU-RISP collaboration Preliminary

ISU-RISP collaboration Preliminary

Extrapolating to the infinite matrix limit “Extrapolations A & B” P. Maris, J.P. Vary and A.M. Shirokov, Phys. Rev. C79, 014308 (2009) P. Maris, A.M. Shirokov and J.P. Vary, Phys. Rev. C81, 021301(R) (2010)

P.Maris, J.P.Vary and A.M.Shirokov, Phys.Rev.C79,014308 (2009)

For both IR and UV extrapolations; * S.Coon, M.I. Avetian, M.K.G. Kruse, U. van Kolck, P. Maris, and J.P. Vary, Phys. Rev. C 86, 054002 (2012); arXiv: 1205.3230 * R.J. Furnstahl, G. Hagen, T. Papenbrock, Phys. Rev. C 86 (2012) 031301; arXiv:1207.6100 * E.D. Jurgenson, P. Maris, R.J. Furnstahl, P. Navratil, W.E. Ormand, J.P. Vary, Phys.Rev. C87 (2013) 054312 ; arXiv: 1302:5473 …

Summary A huge opportunity for nuclear physics in Korea with upcoming RI facility There has been a great progress in ab initio approach for nuclear structure (and also in understanding nuclear interactions) We are working on 9,10Li and all about 6Li together with various extrapolation methods (Semi) ab initio approaches for medium mass nuclei Ab initio nuclear reactions