Spectral distance on the circle

A building block of non-commutative geometry is the observation that most of the geometric information of a compact Riemannian spin manifold M is encoded within its Dirac operator D. Especially via Connes' distance formula one is able to extract from the spectral properties of D the geodesic di...

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Vydáno v:Journal of functional analysis Ročník 255; číslo 7; s. 1575 - 1612
Hlavní autor: Martinetti, Pierre
Médium: Journal Article
Jazyk:angličtina
Vydáno: Elsevier Inc 01.10.2008
Témata:
Gauge theory
Non-commutative geometry
Spectral triple
Sub-Riemannian geometry
Non-commutative geometry
Spectral triple
Sub-Riemannian geometry
Gauge theory
ISSN:0022-1236, 1096-0783
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Shrnutí:A building block of non-commutative geometry is the observation that most of the geometric information of a compact Riemannian spin manifold M is encoded within its Dirac operator D. Especially via Connes' distance formula one is able to extract from the spectral properties of D the geodesic distance on M. In this paper we investigate the distance d encoded within a covariant Dirac operator on a trivial U ( n ) -fiber bundle over the circle with arbitrary connection. It turns out that the connected components of d are tori whose dimension is given by the holonomy of the connection. For n = 2 we explicitly compute d on all the connected components. For n ⩾ 2 we restrict to a given fiber and find that the distance is given by the trace of the module of a matrix. The latest is defined by the holonomy and the coordinate of the points under consideration. This paper extends to arbitrary n and arbitrary connection the results obtained in a previous work for U ( 2 ) -bundle with constant connection. It confirms interesting properties of the spectral distance with respect to another distance naturally associated to connection, namely the horizontal or Carnot–Carathéodory distance d H . Especially in case the connection has irrational components, the connected components for d are the closure of the connected components of d H within the Euclidean topology on the torus.
ISSN:0022-1236
1096-0783
DOI:10.1016/j.jfa.2008.07.018