A few Fascinating Highlights of compound variety with regards to silicon-nucleus impacts at 4.5 GeV c-1 for each nucleon
DOI:
https://doi.org/10.58916/jhas.v9i2.261Keywords:
Relativistic nucleus-nucleus Collision, nuclear emulsion, Compound Particle Multiplicity and Quantum Chromodynamics (QCD).Abstract
An endeavor was made to research a few intriguing qualities of compound variety with regards to silicon-nucleus impacts per nucleon. The quantity of dark and shower particles taken together is known as compound variety, Nc. It has been found that the compound assortment conveyances become more extensive with the expanding size of the struck nucleus nucleus. The worth of the proportion <Nc>/D(Nc) apparently remains free of the shot mass. Additionally, the scattering of the assortment circulation is seen to increment straightly with the expanding worth of <Nc>. Additionally, the outcomes show that the worth of the tendency coefficient doesn't depend upon the shot's sort.Nc=(Ng+Ns).
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Abd El-Daiem, A. (2010). Characteristics of compound multiplicity in 24 Mg with emulsion at 4.5 A GeV/c. Physics International, 1(1), 31-37.
Abd-Allah, N. N., & Mohery, M. (2001). Features of the Compound Multiplicity of the Interactions of^{24} Mg and^{28} Si Ions with Emulsion Nuclei at 4.5 A GeV/c. Turkish Journal of Physics, 25(2), 109-119.
Andersson, B., Otterlund, I., & Stenlund, E. (1978). On the correlation between fast target protons and the number of hadron-nucleon collisions in high-energy hadron-nucleus reactions. Physics Letters B, 73(3), 343-346.
El-Nadi, M., Abdelsalam, A., El-Nagdy, M. S., Shaat, E. A., Ali Mossa, N., Abou Moussa, Z., ... & Badawy, B. (2001, August). Forward-backward particle characteristics in the interactions of 3He and 4He with emulsion unclei at 3.7 A GeV. In International Cosmic Ray Conference (Vol. 4, p. 1366).
El-Naghy, A., Ghoniem, M. T., Hussein, M. T., Ramadan, S., Sadek, N. M., Abdel-Allah, N. N., ... & Tretyakova, M. I. (1994). Correlations in inelastic collisions of relativistic nuclei with emulsion at (4.1–4.5) A GeV/c. Il Nuovo Cimento A (1965-1970), 107, 279-289.
Ghosh, D., Deb, A., Lahiri, M. B., Biswas, S., & Mandal, P. (2009). Multiplicity fluctuations of pions and protons at SPS energy—An in-depth analysis with factorial correlator. Pramana, 73, 685-697.
Ghosh, D., Mukhopadhyay, A., Ghosh, A., Sengupta, R., & Roy, J. (1989). Multiplicity characteristics of heavy-ion interactions at 4.5 GeV/yc per nucleon. Nuclear Physics A, 499(4), 850-860.
Ghosh, D., Roy, J., & Sengupta, R. (1987). Study of multiparticle production in the interaction of 12C with photoemulsion nuclei at 4.5 GeV/c per nucleon. Nuclear Physics A, 468(3-4), 719-738.
Hebert, J., Hébert, C. J. D., Areti, H., Patel, P. M., Vincent, M. A., Baumann, G., ... & Gandia, V. (1974). Nuclear interactions of 200 GeV protons in emulsion. Physics Letters B, 48(5), 467-470.
Jain, P. L., Sengupta, K., & Singh, G. (1991). Production of fast and slow particles in nucleus-nucleus collisions at ultrarelativistic energies. Physical Review C, 44(2), 844.
Kailas, S., & Singh, P. (1992). Proceedings of the symposium on nuclear physics: Invited talks/Seminars. Vol. 34A (1991).
Khan, M. S., Ali, S. S., Singh, P., Khushnood, H., Ansari, A. R., Nasr, M. A., ... & Irfan, M. (1997). Some interesting results on compound multiplicity in 12C-nucleus reactions at 4.5 A GeV/c. Canadian journal of physics, 75(8), 549-557.
Luo, X., Wang, Q., Xu, N., & Zhuang, P. (2022). Properties of QCD matter at high baryon density. Berlin/Heidelberg, Germany: Springer.
Sun, K. J., Chen, L. W., Ko, C. M., Pu, J., & Xu, Z. (2018). Light nuclei production as a probe of the QCD phase diagram. Physics Letters B, 781, 499-504.
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