A Symplectically Non-Squeezable Small Set, and the Regular Coisotropic Capacity

J. Swoboda; F.J. Ziltener

doi:10.4310/JSG.2013.v11.n4.a1

A Symplectically Non-Squeezable Small Set, and the Regular Coisotropic Capacity

J. Swoboda, F.J. Ziltener

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Abstract

We prove that for n ≥ 2 there exists a compact subset X of the closed ball in R2n of radius √2, such that X has Hausdorff dimension n and does not symplectically embed into the standard open symplectic cylinder. The second main result is a lower bound on the d-th regular coisotropic capacity, which is sharp up to a factor of 3. For an open subset of a geometrically bounded, as- pherical symplectic manifold, this capacity is a lower bound on its displacement energy. The proofs of the results involve a certain Lagrangian submanifold of linear space, which was considered by M. Audin and L. Polterovich.

Original language	English
Pages (from-to)	509-523
Number of pages	15
Journal	Journal of Symplectic Geometry
Volume	11
Issue number	4
DOIs	https://doi.org/10.4310/JSG.2013.v11.n4.a1
Publication status	Published - 2013
Externally published	Yes

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10.4310/JSG.2013.v11.n4.a1

1203.2395v4Submitted manuscript, 224 KB

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abstract = "We prove that for n ≥ 2 there exists a compact subset X of the closed ball in R2n of radius √2, such that X has Hausdorff dimension n and does not symplectically embed into the standard open symplectic cylinder. The second main result is a lower bound on the d-th regular coisotropic capacity, which is sharp up to a factor of 3. For an open subset of a geometrically bounded, as- pherical symplectic manifold, this capacity is a lower bound on its displacement energy. The proofs of the results involve a certain Lagrangian submanifold of linear space, which was considered by M. Audin and L. Polterovich.",

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AU - Swoboda, J.

AU - Ziltener, F.J.

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N2 - We prove that for n ≥ 2 there exists a compact subset X of the closed ball in R2n of radius √2, such that X has Hausdorff dimension n and does not symplectically embed into the standard open symplectic cylinder. The second main result is a lower bound on the d-th regular coisotropic capacity, which is sharp up to a factor of 3. For an open subset of a geometrically bounded, as- pherical symplectic manifold, this capacity is a lower bound on its displacement energy. The proofs of the results involve a certain Lagrangian submanifold of linear space, which was considered by M. Audin and L. Polterovich.

AB - We prove that for n ≥ 2 there exists a compact subset X of the closed ball in R2n of radius √2, such that X has Hausdorff dimension n and does not symplectically embed into the standard open symplectic cylinder. The second main result is a lower bound on the d-th regular coisotropic capacity, which is sharp up to a factor of 3. For an open subset of a geometrically bounded, as- pherical symplectic manifold, this capacity is a lower bound on its displacement energy. The proofs of the results involve a certain Lagrangian submanifold of linear space, which was considered by M. Audin and L. Polterovich.

U2 - 10.4310/JSG.2013.v11.n4.a1

DO - 10.4310/JSG.2013.v11.n4.a1

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EP - 523

JO - Journal of Symplectic Geometry

JF - Journal of Symplectic Geometry

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ER -

A Symplectically Non-Squeezable Small Set, and the Regular Coisotropic Capacity

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