1 / 14

Shell model study of p-shell X hypernuclei ( 12 X Be)

Shell model study of p-shell X hypernuclei ( 12 X Be). 杉本聡 京都大学 元場俊雄 大阪電通大 山本安夫 都留文科大. Introduction. Up to now, the experimental information are limited for X hyper nuclei as compared to L hyper nuclei.

tannar
Download Presentation

Shell model study of p-shell X hypernuclei ( 12 X Be)

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. Shell model studyof p-shell X hypernuclei(12XBe) 杉本聡 京都大学 元場俊雄 大阪電通大 山本安夫 都留文科大

  2. Introduction • Up to now, the experimental information are limited for X hyper nuclei as compared to L hyper nuclei. • Theoretically, a pioneer work was done by Dover and Gal (Ann. Phys. 146 (1983)) using the existent data at that time. • VX~-21~24MeV • The experiments of (K-,K+) reaction were performed at KEK (Fukuda et al. PRC 58 (1998)) and AGS (Khaustov et al. PRC 61 (2000)) • UX~-14MeV (Assuming a simple WS potential) • At JPARC, the experiment of (K-,K+) reaction is planned to explore X hypernuclei.

  3. Purpose of our study • To study the structure of X hypernuclei using the shell model with effective interactions deduced from realistic NY interaction model. • To perform a reaction calculation with the wave function from the shell model to explore what can be obtained from the experimental data. • DWIA for (K-,K+) This method has been quite successful in the study of L hypernuclei!

  4. 12C(p+,K+)12LC Experiment Hotchi et al., PRC 64 (2001) Experiment Chrien et al., NPA 478 (1988) Shell model +DWIA Itonaga et al., PRC 49 (1994) Woods-Saxon (K-P)+DWIA Motoba et al., PRC 38 (1988) From Hashimoto et al., PPNP 57

  5. Shell model calculation • 12XBe (11B+X-) (12C(K+,K-)12XBe) • Active space for nucleons: p-shell • X is fixed to the 0s1/2 orbit. • Effective interaction for nucleons: Cohen-Kurath • Effective interaction for N-X: YNG interaction by Yamamoto (G matrix, kF dependence) • YN interaction model (VN-Xが引力的) • ESC04d (Rijken and Yamamto PRC 73 044008(2006)) • NHC-D (Nagels et al. PRD 15 2547 (1977)) • Non-central part is not included.

  6. Single particle energy 12XBe • kF in YNG is determined by the condition BE(X,1-1)~4.5 MeV. • UX is comparable to the experimental data.UX~ 14MeV (Fukuda et al., Khaustov et al)

  7. p-shell matrix element of YNG • D forN-X is larger than that for N-L. • ESC04d gives quite large D. • D for ESC04d and NHC-D have opposite signs.

  8. 12XBe(11B+X) • The spectra for ESC04d and NHC-D show different behavior. • The orders of the lowest two levels are different because of the sign changes of spin-spin part between ESC04d and NHC-D. • ESC04d: intermediate (strong) coupling • NHC-D: weak coupling (at least in the T=0 channel) 11B+X

  9. DWIA計算 12C(K-,K+)12XBe • 殻模型計算で得られた波動関数を用いてDWIA計算を行った。 • (K-,K+)反応 • 運動量移行が大きい(~500MeV/c@pK-=1.6GeV/c)のでJ-stretchedの状態が強く励起される。 • アイソスピン移行は1

  10. T=1, 1- state in 12XBe T=1/2 • 12C(K-,K+)12XBe反応で強く励起されるのはT=1,1-の状態。 • ESC04dとNHC-Dでは波動関数の中身が大きく違う。(相互作用の違いを反映) (P(3/2-1Xs1/2),P(1/2-1Xs1/2),P(3/2-2Xs1/2))

  11. Exicitation Function NHC-D Smearing factor: 2MeV

  12. Excitation Function ESC04d Smearing factor: 2MeV

  13. Excitation Functionの比較 ESC04d NHC-D • 波動関数(NY相互作用)の違いが励起関数に反映される。 X0p1/2 Woods-Saxon potential (Khaustov et al, PRC 61) X0s1/2

  14. Summary • 12XBeに対してN-X相互作用としてESC04dとNHC-Dに基づいたものを用いて殻模型計算を行った。 • ESC04dとNHC-Dとでは波動関数の中身が大きく違う。 • 殻模型波動関数を用いて12C(K-,K+)12XBe反応に対する励起関数を求めた。 • 励起関数は波動関数の違いを反映しESC04dとNHC-Dとで大きく異なる。→N-X相互作用の情報を得られる可能性? • 今後の課題 • Xp→LLに対する幅 • 連続状態の影響(p状態) • 他のN-X相互作用を用いた計算 • fss2 etc.

More Related