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From the Group SL(2, C) to Gyrogroups and Gyrovector Spaces and Hyperbolic Geometry
Foundations of Physics 31 (11):1611-1639 (2001)
Abstract
We show that the algebra of the group SL(2, C) naturally leads to the notion of gyrogroups and gyrovector spaces for dealing with the Lorentz group and its underlying hyperbolic geometry. The superiority of the use of the gyrogroup formalism over the use of the SL(2, C) formalism for dealing with the Lorentz group in some cases is indicated by (i) the validity of gyrogroups and gyrovector spaces in higher dimensions, by (ii) the analogies that they share with groups and vector spaces, and by (iii) the demonstration that gyrovector spaces form the setting for hyperbolic geometry in the same way that vector spaces form the setting for Euclidean geometry. As such, gyrogroups and gyrovector spaces provide powerful tools for the study of relativity physicsMy notes
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Citations of this work
The Bloch Gyrovector.Jing-Ling Chen & Abraham A. Ungar - 2002 - Foundations of Physics 32 (4):531-565.
References found in this work
Thomas precession: Its underlying gyrogroup axioms and their use in hyperbolic geometry and relativistic physics.Abraham A. Ungar - 1997 - Foundations of Physics 27 (6):881-951.
Special relativity and quantum mechanics.Francis R. Halpern - 1968 - Englewood Cliffs, N.J.,: Prentice-Hall.
The Relativistic Composite-Velocity Reciprocity Principle.Abraham A. Ungar - 2000 - Foundations of Physics 30 (2):331-342.
The Bifurcation Approach to Hyperbolic Geometry.Abraham A. Ungar - 2000 - Foundations of Physics 30 (8):1257-1282.
From Pythagoras To Einstein: The Hyperbolic Pythagorean Theorem. [REVIEW]Abraham A. Ungar - 1998 - Foundations of Physics 28 (8):1283-1321.
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