Abstract
Recent research has shown that the fine structure constant αo is a global quantity which does not depend on the details of any particular physical theory but may be determined directly from the global topological structure of ε(∞) which is assumed to be identical to our actual quantum ”micro” space time[1].
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References
M.S. El Naschie, “On a transfinite heterotic string theory”, Chaos, Solitons & Fractals, Vol.12, 2001, pp417–421.
M.S. El Naschie, Int. J. Theor. Phys., 1998, 12 pp.2935–51.
M. Nakahara, “Geometry, Topology and Physics”, IOP, Bristol, 1998.
I. Montvay and G. Munster, “Quantum field on a lattice”, Cambridge, 1994.
L. Nottale, “Fractal spacetime and Microphysics”, World Scientific, 1993.
H.M. Georgi, “Grand Unified Theories”, in “The New Physics”, Ed. P. Davies, Cambridge, 1989, p.425.
S. Weinberg, “The Quantum Theory of Fields”, Cambridge, 2000.
G. Nicolis and I. Prigogine, “Self-organization in Nonequilibrium Systems”, Wiley, New York, 1977.
B.G. Sidharth, “The Chaotic Universe”, Nova Science Publishers, New York, In press.
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El Naschie, M. (2001). The Cantorian Gravity Coupling Constant is α gs (max) = 1/26.18033989. In: Sidharth, B.G., Altaisky, M.V. (eds) Frontiers of Fundamental Physics 4. Springer, Boston, MA. https://doi.org/10.1007/978-1-4615-1339-1_8
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DOI: https://doi.org/10.1007/978-1-4615-1339-1_8
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