Geometric Numerical Integral Method in Compact Lie Group

Abstract Greenlees has conjectured that the rational stable equivariant homotopy category of a compact Lie group always has an algebraic model. Based on this idea, we show that the category of rational local systems on a connected finite loop space always has a simple algebraic model. When the loop space arises from a connected compact Lie group, this recovers a special case of a result of Pol and Williamson about rational cofree G-spectra. More generally, we show that if K is a closed subgroup of a compact Lie group G such that the Weyl group W G K is connected, then a certain category of rational G-spectra “at K” has an algebraic model. For example, when K is the trivial group, this is just the category of rational cofree G-spectra, and this recovers the aforementioned result. Throughout, we pay careful attention to the role of torsion and complete categories.

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Stratifications of equivariant varieties

Bulletin of the Australian Mathematical Society ◽

10.1017/s0004972700023315 ◽

1977 ◽

Vol 16 (2) ◽

pp. 279-295 ◽

Cited By ~ 13

Author(s):

M.J. Field

Keyword(s):

Lie Group ◽

General Position ◽

Higher Order ◽

Order Conditions ◽

Compact Lie Group ◽

Algebraic Varieties ◽

Equivariant Maps

Let G be a compact Lie group and V and W be linear G spaces. A study is made of the canonical stratification of some algebraic varieties that arise naturally in the theory of C∞ equivariant maps from V to W. The main corollary of our results is the equivalence of Bierstone's concept of “equivariant general position” with our own of “G transversal”. The paper concludes with a description of Bierstone's higher order conditions for equivariant maps in the framework of equisingularity sequences.

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A remark on the tensor product of irreducible representations of a compact Lie group

Japanese journal of mathematics ◽

10.4099/math1924.7.201 ◽

1981 ◽

Vol 7 (1) ◽

pp. 201-211

Author(s):

C. FRONSDAL ◽

T. HIRAI

Keyword(s):

Tensor Product ◽

Lie Group ◽

Irreducible Representations ◽

Compact Lie Group

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Asymptotic dimension of invariant subspace in tensor product representation of compact Lie group

Journal of the Mathematical Society of Japan ◽

10.2969/jmsj/06130921 ◽

2009 ◽

Vol 61 (3) ◽

pp. 921-969

Author(s):

Taro SUZUKI ◽

Tatsuru TAKAKURA

Keyword(s):

Tensor Product ◽

Invariant Subspace ◽

Lie Group ◽

Asymptotic Dimension ◽

Compact Lie Group ◽

Product Representation ◽

Tensor Product Representation

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Correction: Çakmak, A. New Type Direction Curves in 3-Dimensional Compact Lie Group Symmetry 2019, 11, 387

Symmetry ◽

10.3390/sym12020284 ◽

2020 ◽

Vol 12 (2) ◽

pp. 284

Author(s):

Ali Çakmak

Keyword(s):

Lie Group ◽

Group Symmetry ◽

Compact Lie Group ◽

3 Dimensional ◽

New Type ◽

Lie Group Symmetry

The authors wish to make the following corrections to their paper [...]

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On the K-theory of the loop space of a Lie group

Mathematical Proceedings of the Cambridge Philosophical Society ◽

10.1017/s0305004100048672 ◽

1974 ◽

Vol 76 (1) ◽

pp. 1-20 ◽

Cited By ~ 7

Author(s):

Francis Clarke

Keyword(s):

Lie Group ◽

Loop Space ◽

Simple Structure ◽

Homology Theory ◽

Compact Lie Group ◽

Classifying Space ◽

K Theory ◽

Simply Connected ◽

Torsion Free ◽

Multiplicative Structures

Let G be a simply connected, semi-simple, compact Lie group, let K* denote Z/2-graded, representable K-theory, and K* the corresponding homology theory. The K-theory of G and of its classifying space BG are well known, (8),(1). In contrast with ordinary cohomology, K*(G) and K*(BG) are torsion-free and have simple multiplicative structures. If ΩG denotes the space of loops on G, it seems natural to conjecture that K*(ΩG) should have, in some sense, a more simple structure than H*(ΩG).

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Higher-order orbifold Euler characteristics for compact Lie group actions

Proceedings of the Royal Society of Edinburgh Section A Mathematics ◽

10.1017/s030821051500027x ◽

2015 ◽

Vol 145 (6) ◽

pp. 1215-1222 ◽

Cited By ~ 1

Author(s):

S. M. Gusein-Zade ◽

I. Luengo ◽

A. Melle-Hernández

Keyword(s):

Euler Characteristic ◽

Lie Group ◽

Group Actions ◽

Wreath Products ◽

Higher Order ◽

Compact Lie Group ◽

Euler Characteristics ◽

Finite Group Actions ◽

Lie Group Actions ◽

Generating Series

We generalize the notions of the orbifold Euler characteristic and of the higher-order orbifold Euler characteristics to spaces with actions of a compact Lie group using integration with respect to the Euler characteristic instead of the summation over finite sets. We show that the equation for the generating series of the kth-order orbifold Euler characteristics of the Cartesian products of the space with the wreath products actions proved by Tamanoi for finite group actions and by Farsi and Seaton for compact Lie group actions with finite isotropy subgroups holds in this case as well.

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Deformations of a Hamiltonian Action of a Compact Lie Group

Integrable Systems ◽

10.1007/978-1-4612-0315-5_10 ◽

1993 ◽

pp. 227-233

Author(s):

Victor Guillemin

Keyword(s):

Lie Group ◽

Compact Lie Group ◽

Hamiltonian Action

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Smooth cocycle rigidity for expanding maps, and an application to Mostow rigidity

Mathematical Proceedings of the Cambridge Philosophical Society ◽

10.1017/s0305004101005710 ◽

2002 ◽

Vol 132 (3) ◽

pp. 439-452 ◽

Cited By ~ 2

Author(s):

OLIVER JENKINSON

Keyword(s):

Lie Group ◽

Piecewise Smooth ◽

Rigidity Theorem ◽

Compact Lie Group ◽

Expanding Maps ◽

Cocycle Rigidity ◽

Mostow Rigidity

We give a variation on the proof of Mostow's rigidity theorem, for certain hyperbolic 3-manifolds. This is based on a rigidity theorem for conjugacies between piecewise-conformal expanding Markov maps. The conjugacy rigidity theorem is deduced from a Livsic cocycle rigidity theorem that we prove for smooth, compact Lie group-valued cocycles over piecewise smooth expanding Markov maps.

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