The Search for the Origins of M Theory : Loop Quantum Mechanics, Loops/Strings and Bulk/Boundary Dualities
Abstract
The construction of a covariant Loop Wave functional equation in a 4D spacetime is attained by introducing a generalized eleven dimensional categorical C-space comprised of 8× 8 antisymmetric matrices. The latter matrices encode the generalized coordinates of the histories of points, loops and surfaces combined. Spacetime Topology change and the Holographic principle are natural consequences of imposing the principle of covariance in C-space. The Planck length is introduced as a necessary rescaling parameter to establish the correspondence limit with the physics of point-histories in ordinary Minkowski space, in the limit lP 0. Spacetime quantization should appear in discrete units of Planck length, area, volume ,....All this seems to suggest that the generalized principle of covariance, representing invariance of proper area intervals in C-space, under matrix-coordinate transformations, could be relevant in discovering the underlying principle behind the origins of M theory. We construct an ansatz for the SU(∞) Yang-Mills vacuum wavefunctional as a solution of the Schroedinger Loop Wave equation associated with the Loop Quantum Mechanical formulation of the Eguchi-Schild String . The Strings/Loops (SU(∞) gauge field) correspondence implements one form of the Bulk/Boundary duality conjecture in this case.
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