0000000000843562

AUTHOR

Hans-juergen Matschull

showing 3 related works from this author

(2+1)-dimensional Einstein-Kepler problem in the centre-of-mass frame

1999

We formulate and analyze the Hamiltonian dynamics of a pair of massive spinless point particles in (2+1)-dimensional Einstein gravity by anchoring the system to a conical infinity, isometric to the infinity generated by a single massive but possibly spinning particle. The reduced phase space \Gamma_{red} has dimension four and topology R^3 x S^1. \Gamma_{red} is analogous to the phase space of a Newtonian two-body system in the centre-of-mass frame, and we find on \Gamma_{red} a canonical chart that makes this analogue explicit and reduces to the Newtonian chart in the appropriate limit. Prospects for quantization are commented on.

PhysicsHamiltonian mechanicsPhysics and Astronomy (miscellaneous)One-dimensional spaceFOS: Physical sciencesConical surfaceGeneral Relativity and Quantum Cosmology (gr-qc)General Relativity and Quantum CosmologyQuantization (physics)symbols.namesakeKepler problemPhase spacesymbolsNewtonian fluidEinsteinMathematical physics
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On the relation between 2+1 Einstein gravity and Chern Simons theory

1999

A simple example is given to show that the gauge equivalence classes of physical states in Chern Simons theory are not in one-to-one correspondence with those of Einstein gravity in three spacetime dimensions. The two theories are therefore not equivalent. It is shown that including singular metrics into general relativity has more, and in fact a quite counter-intuitive, impact on the theory than one naively expects.

PhysicsGravity (chemistry)Physics and Astronomy (miscellaneous)SpacetimeGeneral relativityChern–Simons theoryFOS: Physical sciencesGeneral Relativity and Quantum Cosmology (gr-qc)Gauge (firearms)General Relativity and Quantum CosmologyTheoretical physicssymbols.namesakeGeneral Relativity and Quantum CosmologyHigh Energy Physics::TheorySimple (abstract algebra)symbolsEinsteinRelation (history of concept)
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The 2 + 1 Kepler problem and its quantization

2001

We study a system of two pointlike particles coupled to three dimensional Einstein gravity. The reduced phase space can be considered as a deformed version of the phase space of two special-relativistic point particles in the centre of mass frame. When the system is quantized, we find some possibly general effects of quantum gravity, such as a minimal distances and a foaminess of the spacetime at the order of the Planck length. We also obtain a quantization of geometry, which restricts the possible asymptotic geometries of the universe.

PhysicsPhysics and Astronomy (miscellaneous)SpacetimeFOS: Physical sciencesGeneral Relativity and Quantum Cosmology (gr-qc)General Relativity and Quantum CosmologyGeneral Relativity and Quantum Cosmologysymbols.namesakeQuantization (physics)Classical mechanicsPhase spaceKepler problemsymbolsQuantum gravityPoint (geometry)EinsteinPlanck lengthClassical and Quantum Gravity
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