Department of Physics Kyoto University Tetsuya MURAKAMI HIMAC Pion Experiment and Pb Isotope Radius Measurements Pion Ratios and ESYM.

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Presentation transcript:

Department of Physics Kyoto University Tetsuya MURAKAMI HIMAC Pion Experiment and Pb Isotope Radius Measurements Pion Ratios and ESYM

Neutron Star vs Nuclear EOS E/A Density (ρ B ) L ρ0ρ0 2ρ 0 (nucleon,electron,μ) (nucleon,hyperon, meson,quark) Phase Transition High Density Low Density EOS Mass Radius Low Density High Density Mass Limit Observations of Mass and Radius Phase Transition MR(Mass-Radius) Relation TOV equation Tolman–Oppenheimer–Volkoff equation

Useful Notations 3

It started in 2000 from Alex`s paper, PRL85, 5296 (2000) 4 He urged experimentalists to measure a neutron skin thickness of 208 Pb precisely. We challenge to ALEX and PREX.

Neutron Density Distributions of Pb Isotopes From J. Zenihiro’s PhD thesis 2011 PRC82, (2010) 5

6 RCNP, Osaka University Polarized Proton beams of 295 MeV Typical polarization ~75%

7

Analysis Relativistic Impulse Approximation developed by Murdock and Horowittz (MH) Realistic point proton density distribution deduced from electron scattering data Scalar density = 0.96 Vector density Neutron density = Sum of Gaussian 8

9

10

11

12

13

14 S=33.0±1.1 MeV L=67.0±12.1 MeV

15 Li et al.(2009 )

Summary of neutron skin thickness 16 S=33.0±1.1 MeV L=67.0±12.1 MeV Unfortunately, doesn`t look like sufficiently precise.

17 ESPRI (Elastic Scattering of Proton with RI beam) Project One of Future Directions Beam line MWDCs Solid hydrogen target (1mm thick) Large MWDCs for recoil protons Array of 14 NaI(Tl) Array of Silicon Strip Detectors We have measured elastic scatterings on 20 O, 9-11 C, and 66,70 Ni.

According to Bao-An’s calculation from NPA 708 (2002)

19

Au+Au ? MSU RIBF GSI Isospin diffusion, n-p flow Pion production Xiao, et al., arXiv: (2008) Reisdorf, et al., NPA 781 (2007) 459. S=33.0±1.1 MeV L=67.0±12.1 MeV K sym =-148±124 MeV

HIMAC Pion Experiments Details will be presented by Mr. Sako tomorrow. Our on-going SAMURAI-TPC project along the same direction will be presented by Dr. Isobe this afternoon. 21

Using Minimum Setup Centrality Filter  Multiplicity filter for Charged Particles Portable, If possible. Pion Detector  Simple and portable system HIMAC

Performed Experiments In (Pb) 132 Xe 400 MeV/u In (Pb) 28 Si 400 MeV/u In (Pb) 28 Si 600 MeV/u In 28 Si 800 MeV/u TargetBeamenergy 30deg 45deg60deg75deg90deg120deg ○○○○○○ ○○○○○○ ○○○○○ ○○○○

Beam Energy Dependence : Si log scale π - /π + E rapπ (MeV) 400 MeV 600 MeV 800 MeV ● 45deg ■ 60deg ▼ 90deg ○ 120deg Slopes depend on Beam Energy Fitting : C*X -  slope α: 400 : (4.5±0.5)× : (3.2±0.5)× : (2.0±0.5)×10 -1 log scale π - /π +

If we are lucky, we are going to measure pions from 129,132,136 Xe on CsI reactions at 400 MeV/u in FY Ｐｌｅａｓｅ come back ｆｏｒＭｒ．Ｓａｋｏ ‘ ｓｔａｌｋＴｈａｎｋｙｏｕ

Members of Collaboration RCNP E248 Collaboration Kyoto University J. Zenihiro, Y. Iwao, H. Sakaguchi, S. Terashima, Y. Yasuda, M. Yosoi Research Center for Nuclear Physics M. Itoh, M. Uchida, H.P. Yoshida HIMAC P226 Collaboration Kyoto University M. Sako, S. Ebesu, Y. Ichikawa, S. Imajo, R. Sameshima Rikkyo University K. Ieki, Y. Ikeda, H. Kawamura, M. Matsushita, J. Murata, M. Nitta, T. Toyoda RIKEN Nishina Center Y. Nakai, S. Nishimura NIRS E. Takada, 26