We consider the compactification M(atrix) theory on a Riemann surface /Σ of genus /g>1. A natural generalization of the case of the torus leads to construct a projective unitary representation of π1(Σ), realized on the Hilbert space of square integrable functions on the upper half-plane. A uniquely determined gauge connection, which in turn defines a gauged sl2(R) algebra, provides the central extension. This has a geometric interpretation as the gauge length of a geodesic triangle, and corresponds to a 2-cocycle of the 2nd Hochschild cohomology group of the Fuchsian group uniformizing /Σ. Our construction can be seen as a suitable double-scaling limit /N-->∞, /k-->-∞ of a /U(N) representation of π1(Σ), where /k is the degree of the associated holomorphic vector bundle, which can be seen as the higher-genus analog of 't Hooft's clock and shift matrices of QCD. We compare the above mentioned uniqueness of the connection with the one considered in the differential-geometric approach to the Narasimhan-Seshadri theorem provided by Donaldson. We then use our infinite dimensional representation to construct a C*-algebra which can be interpreted as a noncommutative Riemann surface Σθ. Finally, we comment on the extension to higher genus of the concept of Morita equivalence.
The concept of a nonocommutative Riemann surface
MATONE, MARCO;PASTI, PAOLO
2000
Abstract
We consider the compactification M(atrix) theory on a Riemann surface /Σ of genus /g>1. A natural generalization of the case of the torus leads to construct a projective unitary representation of π1(Σ), realized on the Hilbert space of square integrable functions on the upper half-plane. A uniquely determined gauge connection, which in turn defines a gauged sl2(R) algebra, provides the central extension. This has a geometric interpretation as the gauge length of a geodesic triangle, and corresponds to a 2-cocycle of the 2nd Hochschild cohomology group of the Fuchsian group uniformizing /Σ. Our construction can be seen as a suitable double-scaling limit /N-->∞, /k-->-∞ of a /U(N) representation of π1(Σ), where /k is the degree of the associated holomorphic vector bundle, which can be seen as the higher-genus analog of 't Hooft's clock and shift matrices of QCD. We compare the above mentioned uniqueness of the connection with the one considered in the differential-geometric approach to the Narasimhan-Seshadri theorem provided by Donaldson. We then use our infinite dimensional representation to construct a C*-algebra which can be interpreted as a noncommutative Riemann surface Σθ. Finally, we comment on the extension to higher genus of the concept of Morita equivalence.File | Dimensione | Formato | |
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