Restricting Representations of Completely Solvable Lie Groups

We are concerned here with the problem of describing the direct integral decomposition of a unitary representation obtained by restriction from a larger group. This is the dual problem to the more commonly investigated problem of decomposing induced representations. In this paper we work in the context of completely solvable Lie groups—more general than nilpotent, but less general than exponential solvable. Moreover, the groups involved are simply connected. The restriction problem was considered originally in [2] and in [6] for nilpotent groups.

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Some groups with T1 primitive ideal spaces

Journal of the Australian Mathematical Society. Series A. Pure Mathematics and Statistics ◽

10.1017/s144678870002259x ◽

1985 ◽

Vol 38 (1) ◽

pp. 55-64 ◽

Cited By ~ 2

Author(s):

A. L. Carey ◽

W. Moran

Keyword(s):

Normal Subgroup ◽

Lie Groups ◽

Lie Group ◽

Locally Compact Group ◽

Primitive Ideal ◽

Ideal Space ◽

Solvable Lie Groups ◽

Locally Compact ◽

Simply Connected ◽

Connected Lie Group

AbstractLet G be a second countable locally compact group possessing a normal subgroup N with G/N abelian. We prove that if G/N is discrete then G has T1 primitive ideal space if and only if the G-quasiorbits in Prim N are closed. This condition on G-quasiorbits arose in Pukanzky's work on connected and simply connected solvable Lie groups where it is equivalent to the condition of Auslander and Moore that G be type R on N (-nilradical). Using an abstract version of Pukanzky's arguments due to Green and Pedersen we establish that if G is a connected and simply connected Lie group then Prim G is T1 whenever G-quasiorbits in [G, G] are closed.

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The concept of a filter

Mathematical Proceedings of the Cambridge Philosophical Society ◽

10.1017/s0305004100041104 ◽

1967 ◽

Vol 63 (1) ◽

pp. 221-227 ◽

Cited By ~ 9

Author(s):

E. J. Hannan

Keyword(s):

Linear Operator ◽

Symmetric Space ◽

Random Process ◽

Response Function ◽

Second Order ◽

Closed Linear Operator ◽

Direct Integral ◽

Group Of Isometries ◽

Direct Integral Decomposition ◽

Integral Decomposition

AbstractIt is proved that for a second-order, homogeneous, random process on a globally symmetric space a filter, that is a closed linear operator which is invariant under a group of isometries of the space, may be fully described through a response function, that is that it has a direct integral decomposition into components which are scalar multiples of the identity.

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The Asymptotic Ratio Set and Direct Integral Decompositions of a Von Neumann Algebra

Canadian Journal of Mathematics ◽

10.4153/cjm-1971-067-4 ◽

1971 ◽

Vol 23 (4) ◽

pp. 598-607 ◽

Cited By ~ 2

Author(s):

Ole A. Nielsen

Keyword(s):

Von Neumann Algebra ◽

Von Neumann Algebras ◽

Direct Integral ◽

Von Neumann ◽

Ratio Set ◽

Almost All ◽

Direct Integral Decomposition ◽

Integral Decomposition ◽

Remarkable Progress

The fact that any von Neumann algebra on a separable Hilbert space has an essentially unique direct integral decomposition into factors means that there is a global as well as a local aspect to any partial classification of von Neumann algebras. More precisely, suppose that J is a statement about von Neumann algebras which is either true or false for any given von Neumann algebra. Then a von Neumann algebra is said to satisfy J globally if it satisfies J, and to satsify J locally if almost all the factors appearing in some (and hence in any) central decomposition of it satisfy J . In a recent paper [3], H. Araki and E. J. Woods introduced the notion of the asymptotic ratio set of a factor, and by means of this they made remarkable progress in the classification of factors.

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The Plancherel formula for the horocycle space and generalizations

Journal of the Australian Mathematical Society. Series A. Pure Mathematics and Statistics ◽

10.1017/s1446788700000069 ◽

1996 ◽

Vol 61 (1) ◽

pp. 42-56 ◽

Cited By ~ 2

Author(s):

Ronald L. Lipsman

Keyword(s):

Harmonic Analysis ◽

Regular Representation ◽

Plancherel Formula ◽

Intertwining Operators ◽

Direct Integral ◽

Regular Representations ◽

Spectral Distributions ◽

Theoretic Technique ◽

Direct Integral Decomposition ◽

Integral Decomposition

AbstractThe Plancherel formula for the horocycle space, and several generalizations, is derived within the framework of quasi-regular representations which have monomial spectrum. The proof uses only machinery from the Penney-Fujiwara distribution-theoretic technique; no special semisimple harmonic analysis is needed. The Plancherel formulas obtained include the spectral distributions and the intertwining operators that effect the direct integral decomposition of the quasi-regular representation.

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Bloch wave homogenisation of quasiperiodic media

European Journal of Applied Mathematics ◽

10.1017/s0956792520000352 ◽

2020 ◽

pp. 1-21

Author(s):

SISTA SIVAJI GANESH ◽

VIVEK TEWARY

Keyword(s):

Bloch Wave ◽

Periodic Operator ◽

Almost Periodic ◽

Periodic Media ◽

Direct Integral ◽

Bloch Waves ◽

Direct Integral Decomposition ◽

Quasiperiodic Media ◽

Integral Decomposition ◽

Periodic Operators

Quasiperiodic media is a class of almost periodic media which is generated from periodic media through a ‘cut and project’ procedure. Quasiperiodic media displays some extraordinary optical, electronic and conductivity properties which call for the development of methods to analyse their microstructures and effective behaviour. In this paper, we develop the method of Bloch wave homogenisation for quasiperiodic media. Bloch waves are typically defined through a direct integral decomposition of periodic operators. A suitable direct integral decomposition is not available for almost periodic operators. To remedy this, we lift a quasiperiodic operator to a degenerate periodic operator in higher dimensions. Approximate Bloch waves are obtained for a regularised version of the degenerate operator. Homogenised coefficients for quasiperiodic media are obtained from the first Bloch eigenvalue of the regularised operator in the limit of regularisation parameter going to zero. A notion of quasiperiodic Bloch transform is defined and employed to obtain homogenisation limit for an equation with highly oscillating quasiperiodic coefficients.

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