Nonlocal formulation of the Bose-Einstein correlation within the context of hadronic mechanics, Part II
- Inst. for Basic Research, Palm Harbor, FL (United States)
In this paper the author submits the hypothesis that the Bose-Einstein correlation originates from a nonlocal component of the strong interactions in the interior of the fireball caused by the deep overlapping of the charge distributions-wavepackets of the p-{bar p} collision at high energy, along the historical legacy of Bogoliubov, Fermi and others. Owing to their contact nature, the notion of potential energy has no meaning for the nonlocal internal interactions here considered which, as such, are structurally outside the representational capabilities of quantum mechanics on analytic, topological, operator and other ground. The author therefore studies the Bose-Einstein correlation via the covering hadronic mechanics, which consists of axiom-preserving isotopies of quantum mechanics derived from the fundamental isotopy, the generalization of Planch`s constant {Dirac_h} = 1 into an integrodifferential unit I =I(t, r, p, {dot p}, {dot {psi}}, {dot {psi}}{sup {dagger}}, {partial_derivative}{psi}, {partial_derivative}{psi}{sup {dagger}}, {hor_ellipsis}), det. I {ne} 0, I =I{sup {dagger}}, I > 0. Because of the disparate character of the existing literature, the author first reviews for the reader`s convenience the elements of: the classical foundations of the isotopies; the isotopic quantization, the elements of nonrelativistic and relativistic hadronic mechanics; the underlying generalized notions of isoparticle and isocomposite system; the isotopic symmetries and relativities that are applicable to the fireball with internal nonlocal and nonhamiltonian interactions; and other aspects.
- OSTI ID:
- 381784
- Journal Information:
- Hadronic Journal, Vol. 15, Issue 2; Other Information: PBD: Apr 1992
- Country of Publication:
- United States
- Language:
- English
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