Non-commutative ADE geometries as holomorphic wave equations

· 2005 · hep-th · arXiv hep-th/0504049

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abstract

Borrowing ideas from the relation between classical and quantum mechanics, we study a non-commutative elevation of the ADE geometries involved in building Calabi-Yau manifolds. We derive the corresponding geometric hamiltonians and the holomorphic wave equations representing these non-commutative geometries. The spectrum of the holomorphic waves is interpreted as the quantum moduli space. Quantum A_1 geometry is analyzed in some details and is found to be linked to the Whittaker differential equation.

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Constraining Black Hole Parameters in Non-Commutative Geometry using Machine Learning

gr-qc · 2026-05-19 · unverdicted · novelty 3.0

Machine learning constrains non-commutative black hole parameters and reports consistency with Sgr A* Keck observations.

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Constraining Black Hole Parameters in Non-Commutative Geometry using Machine Learning gr-qc · 2026-05-19 · unverdicted · none · ref 43 · internal anchor
Machine learning constrains non-commutative black hole parameters and reports consistency with Sgr A* Keck observations.

Non-commutative ADE geometries as holomorphic wave equations

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