Von Neumann geometry and \({\mathcal E}^{(\infty)}\) quantum spacetime.
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Publication:1809535
DOI10.1016/S0960-0779(98)00186-6zbMath1066.81528OpenAlexW1534633168WikidataQ123089576 ScholiaQ123089576MaRDI QIDQ1809535
Publication date: 14 January 2001
Published in: Chaos, Solitons and Fractals (Search for Journal in Brave)
Full work available at URL: https://doi.org/10.1016/s0960-0779(98)00186-6
Related Items (9)
On Cantorian spacetime over number systems with division by zero ⋮ Cantor and generalized continuum hypotheses may be false ⋮ On Galois theory from subfactors ⋮ Noncommutative geometry and the stability of circular orbits in a central force potential ⋮ Scale relativity in Cantorian \(\mathcal E^{(\infty)}\) space and average dimensions of our world ⋮ Orbit equivalence and von Neumann algebras for expansive interval maps ⋮ Simple current modular invariants from braided subfactors ⋮ Chaotic attractors near forbidden symmetry ⋮ Scale relativity theory for one-dimensional non-differentiable manifolds
Cites Work
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- Beyond strings, multiple times and gauge theories of area-scalings relativistic transformations
- COBE satellite measurement, hyperspheres, superstrings and the dimension of spacetime.
- Complexity in spacetime and gravitation. I: From chaos to superchaos
- Gravity and Cantorian space-time
- On the uncertainty of Cantorian geometry and the two-slit experiment
- Fractal gravity and symmetry breaking in a hierachical Cantorian space
- Continuous Geometry
- Continuous Rings and Their Arithmetics
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