Spinors and torsion in general relativity

Foundations of Physics 13 (3):325-339 (1983)
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Abstract

Conformal rescalings of spinors are considered, in which the factor Ω, inε AB ↦Ωε AB, is allowed to be complex. It is argued that such rescalings naturally lead to the presence of torsion in the space-time derivative▽ a. It is further shown that, in standard general relativity, a circularly polarized gravitational wave produces a (nonlocal) rotation effect along rays intersecting it similar to, and apparently consistent with, the local torsion of the Einstein-Cartan-Sciama-Kibble theory. The results of these deliberations are suggestive rather than conclusive

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10.1007/bf01906181

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On the kinematics of the torsion of space-time.Friedrich W. Hehl - 1985 - Foundations of Physics 15 (4):451-471.
A Generalization of Gravity.Chethan Krishnan - 2015 - Foundations of Physics 45 (12):1574-1585.

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