Distribution of periodic torus orbits and Duke's theorem for cubic fields

Manfred Einsiedler; Elon Lindenstrauss; Philippe Michel; Akshay Venkatesh

doi:10.4007/annals.2011.173.2.5

Distribution of periodic torus orbits and Duke's theorem for cubic fields

Manfred Einsiedler, Elon Lindenstrauss, Philippe Michel, Akshay Venkatesh

Einstein Institute of Mathematics

The Hebrew University of Jerusalem

Research output: Contribution to journal › Article › peer-review

Abstract

We study periodic torus orbits on spaces of lattices. Using the action of the group of adelic points of the underlying tori, we define a natural equivalence relation on these orbits, and show that the equivalence classes become uniformly distributed. This is a cubic analogue of Duke's theorem about the distribution of closed geodesics on the modular surface: suitably interpreted, the ideal classes of a cubic totally real field are equidistributed in the modular 5-fold SL₃(Z)\SL₃®/SO₃. In particular, this proves (a stronger form of) the folklore conjecture that the collection of maximal compact flats in SL₃(Z)\SL₃®/SO₃ of volume ≤ V becomes equidistributed as V → ∞. The proof combines subconvexity estimates, measure classification, and local harmonic analysis.

Original language	English
Pages (from-to)	815-885
Number of pages	71
Journal	Annals of Mathematics
Volume	173
Issue number	2
DOIs	https://doi.org/10.4007/annals.2011.173.2.5
State	Published - Mar 2011

All Science Journal Classification (ASJC) codes

Statistics and Probability
Statistics, Probability and Uncertainty

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title = "Distribution of periodic torus orbits and Duke's theorem for cubic fields",

abstract = "We study periodic torus orbits on spaces of lattices. Using the action of the group of adelic points of the underlying tori, we define a natural equivalence relation on these orbits, and show that the equivalence classes become uniformly distributed. This is a cubic analogue of Duke's theorem about the distribution of closed geodesics on the modular surface: suitably interpreted, the ideal classes of a cubic totally real field are equidistributed in the modular 5-fold SL3(Z)\textbackslash{}SL3{\textregistered}/SO3. In particular, this proves (a stronger form of) the folklore conjecture that the collection of maximal compact flats in SL3(Z)\textbackslash{}SL3{\textregistered}/SO3 of volume ≤ V becomes equidistributed as V → ∞. The proof combines subconvexity estimates, measure classification, and local harmonic analysis.",

author = "Manfred Einsiedler and Elon Lindenstrauss and Philippe Michel and Akshay Venkatesh",

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AU - Einsiedler, Manfred

AU - Lindenstrauss, Elon

AU - Michel, Philippe

AU - Venkatesh, Akshay

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N2 - We study periodic torus orbits on spaces of lattices. Using the action of the group of adelic points of the underlying tori, we define a natural equivalence relation on these orbits, and show that the equivalence classes become uniformly distributed. This is a cubic analogue of Duke's theorem about the distribution of closed geodesics on the modular surface: suitably interpreted, the ideal classes of a cubic totally real field are equidistributed in the modular 5-fold SL3(Z)\SL3®/SO3. In particular, this proves (a stronger form of) the folklore conjecture that the collection of maximal compact flats in SL3(Z)\SL3®/SO3 of volume ≤ V becomes equidistributed as V → ∞. The proof combines subconvexity estimates, measure classification, and local harmonic analysis.

AB - We study periodic torus orbits on spaces of lattices. Using the action of the group of adelic points of the underlying tori, we define a natural equivalence relation on these orbits, and show that the equivalence classes become uniformly distributed. This is a cubic analogue of Duke's theorem about the distribution of closed geodesics on the modular surface: suitably interpreted, the ideal classes of a cubic totally real field are equidistributed in the modular 5-fold SL3(Z)\SL3®/SO3. In particular, this proves (a stronger form of) the folklore conjecture that the collection of maximal compact flats in SL3(Z)\SL3®/SO3 of volume ≤ V becomes equidistributed as V → ∞. The proof combines subconvexity estimates, measure classification, and local harmonic analysis.

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EP - 885

JO - Annals of Mathematics

JF - Annals of Mathematics

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Distribution of periodic torus orbits and Duke's theorem for cubic fields

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