On the Intermittency and Correlation Integral of Multiparticle Final-States in High Energy Collisions

  • It is shown by both theoretical analysis and Monte Carlo simulation that using the correlation integral instead of factorial moments in the investigation of intermittency phenomena will change the anomalous scaling behavior for decreasing rapidity bins. It is pointed out that the correlation integral and factorial moments probably reflect different physical aspects. In order to eliminate the artificial factor in bin-division, a method of randomly moving starting point of bin-division in the investigation of factorial moments is proposed. It is also shown that the spike events have important contribution to the intermittency indices.
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Zhang Yang, Hu Yuan, Wu Yuanfang, Liu Lianshou and Zhang Yonghe. On the Intermittency and Correlation Integral of Multiparticle Final-States in High Energy Collisions[J]. Chinese Physics C, 1994, 18(S2): 175-184.
Zhang Yang, Hu Yuan, Wu Yuanfang, Liu Lianshou and Zhang Yonghe. On the Intermittency and Correlation Integral of Multiparticle Final-States in High Energy Collisions[J]. Chinese Physics C, 1994, 18(S2): 175-184. shu
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Received: 1993-05-03
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    Supported by the National Natural Science Foundation of China.

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On the Intermittency and Correlation Integral of Multiparticle Final-States in High Energy Collisions

  • 1. Institute of Particle Physics, Huazhong Normal University, Wuhan, Hubei, China;
  • 2. Physics Department, Huanggang Teachers College, Hubei, China
Fund Project:  Supported by the National Natural Science Foundation of China.

Abstract: It is shown by both theoretical analysis and Monte Carlo simulation that using the correlation integral instead of factorial moments in the investigation of intermittency phenomena will change the anomalous scaling behavior for decreasing rapidity bins. It is pointed out that the correlation integral and factorial moments probably reflect different physical aspects. In order to eliminate the artificial factor in bin-division, a method of randomly moving starting point of bin-division in the investigation of factorial moments is proposed. It is also shown that the spike events have important contribution to the intermittency indices.

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