Mathematics – Algebraic Topology
Scientific paper
2009-06-07
Mathematics
Algebraic Topology
56 pages, 2 figure
Scientific paper
We generalize our geometric theory on extended crystal PDE's and their stability, to the category $\mathfrak{Q}_S$ of quantum supermanifolds. By using algebraic topologic techniques, obstructions to the existence of global quantum smooth solutions for such equations are obtained. Applications are given to encode quantum dynamics of nuclear nuclides, identified with graviton-quark-gluon plasmas, and study their stability. We prove that such quantum dynamical systems are encoded by suitable quantum extended crystal Yang-Mills super PDE's. In this way stable nuclear-charged plasmas and nuclides are characterized as suitable stable quantum solutions of such quantum Yang-Mills super PDE's. An existence theorem of local and global solutions with mass-gap, is given for quantum super Yang-Mills PDE's, $\hat{(YM)}$, by identifying a suitable constraint, $\hat{(Higgs)}\subset \hat{(YM)}$, {\em Higgs quantum super PDE}, bounded by a quantum super partial differential relation $\hat{(Goldstone)}\subset \hat{(YM)}$, {\em quantum Goldstone-boundary}. A global solution $V\subset\hat{(YM)}$, crossing the quantum Goldstone-boundary acquires (or loses) mass. Stability properties of such solutions are characterized.
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