64,527 research outputs found

    State Vector Reduction as a Shadow of a Noncommutative Dynamics

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    A model, based on a noncommutative geometry, unifying general relativity with quantum mechanics, is further develped. It is shown that the dynamics in this model can be described in terms of one-parameter groups of random operators. It is striking that the noncommutative counterparts of the concept of state and that of probability measure coincide. We also demonstrate that the equation describing noncommutative dynamics in the quantum gravitational approximation gives the standard unitary evolution of observables, and in the "space-time limit" it leads to the state vector reduction. The cases of the spin and position operators are discussed in details.Comment: 20 pages, LaTex, no figure

    Abelianization of Fuchsian Systems on a 4-punctured sphere and applications

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    In this paper we consider special linear Fuchsian systems of rank 22 on a 4−4-punctured sphere and the corresponding parabolic structures. Through an explicit abelianization procedure we obtain a 2−2-to−1-1 correspondence between flat line bundle connections on a torus and these Fuchsian systems. This naturally equips the moduli space of flat SL(2,C)−SL(2,\mathbb C)-connections on a 4−4-punctured sphere with a new set of Darboux coordinates. Furthermore, we apply our theory to give a complex analytic proof of Witten's formula for the symplectic volume of the moduli space of unitary flat connections on the 4−4-punctured sphere.Comment: 23 pages, comments are welcom

    Noncommutative Dynamics of Random Operators

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    We continue our program of unifying general relativity and quantum mechanics in terms of a noncommutative algebra A{\cal A} on a transformation groupoid Γ=E×G\Gamma = E \times G where EE is the total space of a principal fibre bundle over spacetime, and GG a suitable group acting on Γ\Gamma . We show that every a∈Aa \in {\cal A} defines a random operator, and we study the dynamics of such operators. In the noncommutative regime, there is no usual time but, on the strength of the Tomita-Takesaki theorem, there exists a one-parameter group of automorphisms of the algebra A{\cal A} which can be used to define a state dependent dynamics; i.e., the pair (A,ϕ)({\cal A}, \phi), where ϕ\phi is a state on A{\cal A}, is a ``dynamic object''. Only if certain additional conditions are satisfied, the Connes-Nikodym-Radon theorem can be applied and the dependence on ϕ\phi disappears. In these cases, the usual unitary quantum mechanical evolution is recovered. We also notice that the same pair (A,ϕ)({\cal A}, \phi) defines the so-called free probability calculus, as developed by Voiculescu and others, with the state ϕ\phi playing the role of the noncommutative probability measure. This shows that in the noncommutative regime dynamics and probability are unified. This also explains probabilistic properties of the usual quantum mechanics.Comment: 13 pages, LaTe
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