Azimuthal Distribution and Azimuthal Correlation of the Particles in 10.6MeV/u 84Kr+27Al Collision

  • The light charged particle emission in coincidence with fragmemts in 10.6MeV/u 84Kr+27Al collision is studied.Emphasis is laid on the characters of two-order anisotropy coefficient of Fourier expansion up to two order from fitting particle azimuthal distribution and particle-particle azimuthal correlation.The derived results prove that particle emission is statistically independent with the same azimuthal distribution in each event.It is found that two-order anisotropic coefficient depends weakly on the fragment mass and increases with increasing emitted particle mass.
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  • [1] H. H. Gutbord et al.. Phys. Lett., B46(1989)267.[2] KAOS Collaboration, D. Bill et al., Phys. Rev. Lett., 71(1993)336.[3] TAPS Collaboration, L. B. Venema et al., Phys. Rev. Lett., 71(1993)835.[4] M. B. Tsang et al. Phys. Rev. Lett., 60(1988)1479.[5] W. K. Wilson et al., Phys. Rev, C41(1990)R1881.[6] G. D. Wsetfdl et al., Nucl. Phys., A519(1990)141c.[7] W. Q. Shen et al.. Nucl. Phys.. A551(1993)333.[8] Y. G. Ma et al., Phys. Rev.. C48(1993)R1492.[9] Y. G. Ma et al., Z. Phys, A346(1993)285.[10] R. Popecn et al., Phys. Lett.. B331(1994)285.[11] G. Pantis, S. Das Gupta, Phys. Rev, C49(1994)338.[12] C. B. Chitwood et al., Phys. Rev, C34(1986)858.[13] S. Wang et al., Phys. Rev. C44(1991)1091.[14] R. A. Lacey et al., Phys. Rev. Lett., 70(1993)1224.[15] T. Nakagawa et al., Nucl. Phys., A583(1995)149.[16] K. Yuasa-Nakagawa et al., Phys. Lett., B351(1995)77.[17] S. M. Lee et al. Nucl. Phys., A519(1990)221.[18] K. Yuasa-Nakagawa et al, Phys. Lett., B283(1992)185.[19] R. Wada er al., Nucl. Phys, .A539(1992)326.[20] M. B. Tsang et al, Phys. Lett., B297(1992)243.[21] L. Schad et al., Z. Phys. A318(1984)179.[22] John. M. Alexander et al., Z. Phys., A313(1984)311.[23] A. J. Sierk et al.. Phys. Rev, C33(1986)2039.
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Ye Wei, Shen Wenqing, Ma Yugang and Feng Jun. Azimuthal Distribution and Azimuthal Correlation of the Particles in 10.6MeV/u 84Kr+27Al Collision[J]. Chinese Physics C, 1997, 21(1): 1-7.
Ye Wei, Shen Wenqing, Ma Yugang and Feng Jun. Azimuthal Distribution and Azimuthal Correlation of the Particles in 10.6MeV/u 84Kr+27Al Collision[J]. Chinese Physics C, 1997, 21(1): 1-7. shu
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Received: 1900-01-01
Revised: 1900-01-01
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Azimuthal Distribution and Azimuthal Correlation of the Particles in 10.6MeV/u 84Kr+27Al Collision

    Corresponding author: Ye Wei,
  • Shanghai Institute of Nuclear Research,The Chinese Acadeny of Sciences,Shanghai 2018001 The Institute of Physical and Chemical Research,RIKEN,Wako,Saitama 351-01,Japan2 Department of Physics,Tokyo Institute of Technologe,Meguro,Toyko 152,Japan3 Institute of Physics,University of Tsukuba,Tsukuba,Ibaraki 305,Japan4 Laboratory of Nuclear Science,Tohoku University,Sendai,Miyagi 982,Japan

Abstract: The light charged particle emission in coincidence with fragmemts in 10.6MeV/u 84Kr+27Al collision is studied.Emphasis is laid on the characters of two-order anisotropy coefficient of Fourier expansion up to two order from fitting particle azimuthal distribution and particle-particle azimuthal correlation.The derived results prove that particle emission is statistically independent with the same azimuthal distribution in each event.It is found that two-order anisotropic coefficient depends weakly on the fragment mass and increases with increasing emitted particle mass.

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