Lorentz Transformation in Flat 5D Complex-Hyperbolic Space
Minh Q. Truong
TL;DR
This paper derives the Lorentz transformation within a 5D flat pseudo-complex space, revealing that particles in this space can exceed the speed of light, challenging traditional relativistic limits.
Contribution
It introduces a Lorentz transformation in 5D pseudo-complex space with an extra time-like dimension, showing particles can surpass the speed of light.
Findings
Maximum particle speed exceeds c in TT space
Lorentz transformation extended to 5D pseudo-complex space
Implications for relativistic physics in higher dimensions
Abstract
The Lorentz transfomation is derived in 5D flat pseudo-complex affine space or TT Space. The TT space or pseudo-Complex space accomodates one uncompactified time-like extra dimension. It is shown that the maximum allowable speed for particles living in TT space exceeds the speed of light, c, the absolute speed of the Minkowski space.
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Taxonomy
TopicsRelativity and Gravitational Theory · Noncommutative and Quantum Gravity Theories · Cosmology and Gravitation Theories