Study of nuclear medium effects on polarization in (p, 2p) scattering at 1 GeV
Autor: | S. L. Belostotski, A. N. Prokofiev, D. A. Prokofiev, A. Yu. Kisselev, Hiroyuki Takeda, Harutaka Sakaguchi, V. A. Andreev, V. V. Vikhrov, O. V. Miklukho, Yu. M. Sanjiev, V. V. Sulimov, O. Ya. Fedorov, Y. Yasuda, Tomotsugu Wakasa, A. A. Zhdanov, Hisataka Yoshida, Yukihiko Kitamura, M. N. Andronenko, S. I. Trush, Yu. G. Naryshkin, Tetsuo Noro, Kichiji Hatanaka, M. A. Kopytin, A. A. Izotov, E. Obayashi, A. A. Jgoun, O. G. Grebenyuk, A. V. Shvedchikov, O. A. Domchenkov, Junichiro Kamiya, G. M. Amalsky |
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Rok vydání: | 2002 |
Předmět: | |
Zdroj: | Czechoslovak Journal of Physics. 52:C293-C300 |
ISSN: | 1572-9486 0011-4626 |
Popis: | We report on experimental investigation of the (p, 2p) reactions on nuclei 6Li, 7Li, 12C and 40Ca. In this experiment, polarizations of the secondary protons from the (p, 2p) reactions are measured using 1 GeV proton beam of the PNPI synchrocyclotron. Two final protons from the reaction are detected in coincidence by means of a two-arm magnetic spectrometer at non-symmetric scattering angles. The resolution of the spectrometer on separation energy of 4.5 MeV (FWHM) is enough to distinguish reliably the shell structure of the investigated nuclei. In order to measure polarization of the two secondary protons, both spectrometer arms are equipped with multiwire proportional chamber polarimeters. Strong reduction of polarizations (large depolarization factor) relatively to free pp scattering is observed in the experiment. The 6Li, 7Li P-shell data are interpreted in terms of this reduction being combined with classical phenomenon of the effective polarization calculated with the help of DWIA. For the S-shell protons the depolarization factors are apparently seen not being obscured by the spin-orbit coupling. In case of the 7Li S-shell data the depolarization factors calculated by deviation from IA are found to be ΔP/P=0.31±0.07 and 0.39±0.04 for the scattered and recoil proton polarization, respectively. As estimations show, significant and roughly equal polarization reduction of the two secondary protons with essentially different energies (≈-200 and 800 MeV) can hardly be explained by a trivial nuclear distortion effect like depolarization due to rescatterings in nuclear matter. Measurements with heavier nucleus targets (12C, 40Ca) show that magnitude of the depolarization is a decreasing function of the nuclear density in the part of the nucleus volume which effectively contributes to the pp scattering in a nucleus. An explanation of the observed depolarization might be done in terms of modification of the pp-scattering amplitude in the nuclear meidum. |
Databáze: | OpenAIRE |
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