The Quantum Space Phase Transitions for Particles and Force Fields

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Chung D.-Y. ; Krasnoholovets V. (2006)
  • Publisher: HEXIS (Arizona)
  • Journal: Progress in Physics (issn: 1555-5534, eissn: 1555-5615)
  • Subject: quantum space phase transitions | Physics | QC1-999 | particles | classical theory of fields

We introduce a phenomenological formalism in which the space structure is treated in terms of attachment space and detachment space. Attachment space attaches to an object, while detachment space detaches from the object. The combination of these spaces results in three quantum space phases: binary partition space, miscible space and binary lattice space. Binary lattice space consists of repetitive units of alternative attachment space and detachment space. In miscible space, attachment space is miscible to detachment space, and there is no separation between attachment space and detachment spaces. In binary partition space, detachment space and attachment space are in two separate continuous regions. The transition from wavefunction to the collapse of wavefuction under interference becomes the quantum space phase transition from binary lattice space to miscible space. At extremely conditions, the gauge boson force field undergoes a quantum space phase transition to a “hedge boson force field”, consisting of a “vacuum” core surrounded by a hedge boson shell, like a bubble with boundary.
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