0000000000328339

AUTHOR

Bernd Ammann

showing 3 related works from this author

Algebras of pseudodifferential operators on complete manifolds

2003

In several influential works, Melrose has studied examples of non-compact manifolds M 0 M_0 whose large scale geometry is described by a Lie algebra of vector fields V ⊂ Γ ( M ; T M ) \mathcal V \subset \Gamma (M;TM) on a compactification of M 0 M_0 to a manifold with corners M M . The geometry of these manifolds—called “manifolds with a Lie structure at infinity”—was studied from an axiomatic point of view in a previous paper of ours. In this paper, we define and study an algebra Ψ 1 , 0 , V ∞ ( M 0 ) \Psi _{1,0,\mathcal V}^\infty (M_0) of pseudodifferential operators canonically associated to a manifold M 0 M_0 with a Lie structure at infinity V ⊂ Γ ( M ; T M ) \mathcal V \subset \Gamma (…

Filtered algebraCombinatoricsGeneral MathematicsAlgebra representationCurrent algebraUniversal enveloping algebraAffine Lie algebraPoisson algebraLie conformal algebraMathematicsGraded Lie algebraElectronic Research Announcements of the American Mathematical Society
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Complex powers and non-compact manifolds

2002

We study the complex powers $A^{z}$ of an elliptic, strictly positive pseudodifferential operator $A$ using an axiomatic method that combines the approaches of Guillemin and Seeley. In particular, we introduce a class of algebras, ``extended Weyl algebras,'' whose definition was inspired by Guillemin's paper on the subject. An extended Weyl algebra can be thought of as an algebra of ``abstract pseudodifferential operators.'' Many algebras of pseudodifferential operators are extended Weyl algebras. Several results typical for algebras of pseudodifferential operators (asymptotic completeness, construction of Sobolev spaces, boundedness between apropriate Sobolev spaces, >...) generalize to…

Class (set theory)Applied Mathematicsmedia_common.quotation_subjectMathematics - Operator AlgebrasAxiomatic systemMathematics::Spectral TheoryInfinityManifoldAlgebraSobolev spaceMathematics - Spectral TheoryOperator (computer programming)Mathematics - Analysis of PDEsCompleteness (order theory)FOS: MathematicsOperator Algebras (math.OA)Spectral Theory (math.SP)Mathematics::Symplectic GeometryAnalysisEigenvalues and eigenvectorsAnalysis of PDEs (math.AP)media_commonMathematics
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Pseudodifferential operators on manifolds with a Lie structure at infinity

2003

to appear in Anal. Math.; Several examples of non-compact manifolds $M_0$ whose geometry at infinity is described by Lie algebras of vector fields $V \subset \Gamma(TM)$ (on a compactification of $M_0$ to a manifold with corners $M$) were studied by Melrose and his collaborators. In math.DG/0201202 and math.OA/0211305, the geometry of manifolds described by Lie algebras of vector fields -- baptised "manifolds with a Lie structure at infinity" there -- was studied from an axiomatic point of view. In this paper, we define and study the algebra $\Psi_{1,0,\VV}^\infty(M_0)$, which is an algebra of pseudodifferential operators canonically associated to a manifold $M_0$ with the Lie structure at …

Mathematics - Differential GeometryPure mathematicsVector algebraRiemannian geometry01 natural sciencessymbols.namesakeMathematics (miscellaneous)Mathematics - Analysis of PDEs0103 physical sciencesLie algebraFOS: MathematicsCompactification (mathematics)0101 mathematicsMathematics010102 general mathematicsHigh Energy Physics::PhenomenologyRiemannian manifoldDifferential operatorCompact operatorAlgebraOperator algebraDifferential Geometry (math.DG)[MATH.MATH-DG]Mathematics [math]/Differential Geometry [math.DG]symbols010307 mathematical physicsStatistics Probability and Uncertainty[MATH.MATH-DG] Mathematics [math]/Differential Geometry [math.DG]Analysis of PDEs (math.AP)
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