Cluster Model of Formation of Subnuclear and Subatomic Objects

Abstract

The paper describes the development results on one-dimensional (1D) asymptotic model of the formation kinetics for the objects (clusters) of subnuclear (quark) and subatomic (nuclear) matters. A concept of the objects distribution density wave φ(a, t) in space of sizes a lies in the basis for analytical description of the processes under consideration. The proposed formalism makes it possible to describe in an adequate way the final outcomes of the well-known catastrophic phenomena in the world of elementary particles. Mass characteristics of different processes of approach to equilibrium in nuclear reactions are calculated.

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Lin, E. (2014) Cluster Model of Formation of Subnuclear and Subatomic Objects. Journal of Modern Physics, 5, 107-111. doi: 10.4236/jmp.2014.53018.

Conflicts of Interest

The authors declare no conflicts of interest.

References

[1] S. G. Kadmenskii, S. D. Kurgalin and Yu. M. Tchuvil’sky, Physics of Particles and Nuclei, Vol. 38, 2012, pp. 699-742.
http://dx.doi.org/10.1134/S1063779607060019
[2] V. I. Panov, I. Yu. Korneev and F.-K. Thielemann, Physics of Atomic Nuclei, Vol. 72, 2009, pp. 1026-1033.
http://dx.doi.org/10.1134/S1063778809060155
[3] P. Wagner and Y. M. Zhong, Nuclear Physics A, Vol. A592, 1995, pp. 385-412.
[4] N. Wang and M. Liu, Physical Review C, Vol. 84, 2011, Article ID: 051303.
[5] E. E. Lin, Bulletin of the Russian Academy of Sciences Physics, Vol. 76, 2012, pp. 881-883.
http://dx.doi.org/10.3103/S1062873812080199
[6] E. E. Lin, “Qualitative Kinetic Models of Formation of Compact Objects with Strong Internal Bonds,” RFNCVNIIEF, Sarov, 2011 (in Russian).
[7] M. Jacob and P. Landshoff, Scientific American, Vol. 242, 1982, pp. 66-75.
http://dx.doi.org/10.1038/scientificamerican0380-66
[8] B. S. Ishanov, I. M. Kapitonov and N. P. Yudin, “Particles and Atomic Nuclei,” LKI, Moscow, 2007 (in Russian).
[9] L. Valentin, “Physique Subatomique: Noyaux et Particles,” Nouvelle édition Entièrement Refondue, Hermann, Paris, 1982.
[10] V. S. Olkhovscii, Soviet Journal of Particles and Nuclei, Vol. 15, 1984, pp. 130-148.
[11] G. Kane, “Modern Elementary Particle Physics,” Addison-Wesley, Boston, 1987
[12] L. B. Okun, Physics Uspekhi, Vol. 41, 1998, pp. 553-557.
http://dx.doi.org/10.1070/PU1998v041n06ABEH000403
[13] R. B. Neufeld and B. Mueller, Physical Review Letters, Vol. 103, 2009, pp. 04301-04304.
http://dx.doi.org/10.1103/PhysRevLett.103.042301
[14] I. P. Selinov, “Atomic Nuclei: Structure and Systematic,” Nauka, Moscow, 1990 (in Russian).
[15] Ch. E. Düllmann, M. Schadell and A. Yakushev, Physical Review Letters, Vol. 104, 2010, pp. 252701-252705.
http://dx.doi.org/10.1103/PhysRevLett.104.252701
[16] A. I. Obukhov and I. S. Grigor’ev, “Fission of Nuclei,” In: I. S. Grigor’ev and E. Z. Meilikhov, Eds., Physical Quantities Handbook, Energoatomizdat, Moscow, 1991, pp. 1087-1098 (in Russian).
[17] V. L. Ginzburg, Physics Uspekhi, Vol. 42, 1999, pp. 353-373.
http://dx.doi.org/10.1070/PU1999v042n04ABEH000562
[18] L. B. Okun, “Particle Physics: The Guest for the Substance of Substance,” Hardwood Academic Publishers, Newark, 1985.
[19] S. Khalil and S. Moretti, Journal of Modern Physics, Vol. 4, 2013, pp. 7-10.
http://dx.doi.org/10.4236/jmp.2013.41002
[20] E. E. Lin, Technical Physics Letters, Vol. 19, 1993, pp. 669-670.

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