Lebesgue spectrum

A term in spectral theory. Let be a self-adjoint and a unitary operator acting in a Hilbert space . The operator , respectively , has a simple Lebesgue spectrum if it is unitarily equivalent to the operator of multiplication by in a space of complex-valued functions that are defined on the real axis , respectively on the circle

and for which

where the integration is carried out with respect to the ordinary Lebesgue measure on , respectively on ; hence the name Lebesgue spectrum (see Unitarily-equivalent operators). For this definition is equivalent to the following: In there is an orthonormal basis , such that . Also, an operator has a Lebesgue spectrum if can be decomposed into an orthogonal direct sum of invariant subspaces in each of which the operator has a simple Lebesgue spectrum. Although for a given operator there can be many such decompositions, the number of "summands" in each of them is the same (it may be an infinite cardinal number). This number is called the multiplicity of the Lebesgue spectrum. Finally, similar concepts can be introduced for one-parameter groups of unitary operators , continuous in the weak (or strong, which is the same in the given case) operator topology. By Stone's theorem, , where is a self-adjoint operator (cf. Semi-group of operators; Generating operator of a semi-group). If has a Lebesgue spectrum of a certain multiplicity, one says that has the same properties. For example, the group has a simple Lebesgue spectrum if it is unitarily equivalent to the group in , and this group, in turn, is equivalent to the group of shifts in the same space .

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