We present a classical Chern-Simons gauge theory for planar gravity coupled to point-like sources. The theory is defined in terms of flat coordinates whose relation with the space-time coordinates can be unambiguously established. Though flat, the theory is equivalent to Einstein's as can be shown in some explicit and non-trivial examples. The procedure we have developed allows us to find the space-time metric, the geodesics equations and also provides the coordinates that flatten the space-time manifold. In particular, we recover the stationary metric generated by N spinning particles and we discuss in full detail the matching conditions satisfied by the space-time coordinates that flatten the metric in the two-particle case.
Nardelli, G., Grignani, G., Gravity in (2+1)-dimensions coupled to point - like sources: A Flat Chern-Simons gauge theory equivalent to Einstein's, <<NUCLEAR PHYSICS. B>>, 1991; 1991 (B370): 491-508. [doi:http://dx.doi.org/10.1016/0550-3213(92)90295-M] [http://hdl.handle.net/10807/8569]
Gravity in (2+1)-dimensions coupled to point - like sources: A Flat Chern-Simons gauge theory equivalent to Einstein's
Nardelli, Giuseppe;Grignani, Gianluca
1991
Abstract
We present a classical Chern-Simons gauge theory for planar gravity coupled to point-like sources. The theory is defined in terms of flat coordinates whose relation with the space-time coordinates can be unambiguously established. Though flat, the theory is equivalent to Einstein's as can be shown in some explicit and non-trivial examples. The procedure we have developed allows us to find the space-time metric, the geodesics equations and also provides the coordinates that flatten the space-time manifold. In particular, we recover the stationary metric generated by N spinning particles and we discuss in full detail the matching conditions satisfied by the space-time coordinates that flatten the metric in the two-particle case.
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