Coarse obstructions to positive scalar curvature metrics in noncompact quotients of symmetric spaces /by Stanley S. Chang.

Chang, Stanley S.

January 1999

Thesis (Ph. D.)--University of Chicago, Dept. of Mathematics, June 1999. / Includes bibliographical references. Also available on the Internet.

Index theory (Mathematics) K-theory

Index and stability in bimatrix games a geometric-combinatorial approach /

Schemde, Arndt von.

January 1900

Thesis (Ph. D.)--School of Economics and Political Science, London. / In: MyiLibrary. Visionné le 1er mai 2009. Description based on print version record. Comprend des références bibliographiques.

Game theory. Index theory (Mathematics)

Index and stability in bimatrix games a geometric-combinatorial approach /

Schemde, Arndt von.

January 1900

Thesis (Ph. D.)--School of Economics and Political Science, London.

Game theory. Index theory (Mathematics)

Index and stability in bimatrix games a geometric-combinatorial approach /

Schemde, Arndt von.

January 1900

Thesis (Ph. D.)--School of Economics and Political Science, London. / Includes bibliographical references and indexes.

Game theory. Index theory (Mathematics)

Index and stability in bimatrix games a geometric-combinatorial approach /

Schemde, Arndt von.

January 1900

Thesis (Ph. D.)--School of Economics and Political Science, London. / Title from e-book title screen (viewed November 16, 2007). Includes bibliographical references and indexes.

Game theory. Index theory (Mathematics)

Index pairs : from dynamics to combinatorics and back

Syzmczak, Andrzej

05 1900

No description available.

Index theory (Mathematics)

Differentiable dynamical systems

An Embedded Toeplitz Problem

Ordonez-Delgado, Bartleby

05 October 2010

In this work we investigate multi-variable Toeplitz operators and their relationship with KK-theory in order to apply this relationship to define and analyze embedded Toeplitz problems. In particular, we study the embedded Toeplitz problem of the unit disk into the unit ball in C^2. The embedding of Toeplitz problems suggests a way to define Toeplitz operators over singular spaces. / Ph. D.

Index Theory

KK-Theory

Toeplitz operators

Equivariant index theory and non-positively curved manifolds

Shan, Lin.

January 2007

Thesis (Ph. D. in Mathematics)--Vanderbilt University, May 2007. / Title from title screen. Includes bibliographical references.

Almost CR Quantization via the Index of Transversally Elliptic Dirac Operators

Fitzpatrick, Daniel

18 February 2010

Let $M$ be a smooth compact manifold equipped with a co-oriented subbundle $E\subset TM$. We suppose that a compact Lie group $G$ acts on $M$ preserving $E$, such that the $G$-orbits are transverse to $E$. If the fibres of $E$ are equipped with a complex structure then it is possible to construct a $G$-invariant Dirac operator $\dirac$ in terms of the resulting almost CR structure. We show that there is a canonical equivariant differential form with generalized coefficients $\mathcal{J}(E,X)$ defined on $M$ that depends only on the $G$-action and the co-oriented subbundle $E$. Moreover, the group action is such that $\dirac$ is a $G$-transversally elliptic operator in the sense of Atiyah \cite{AT}. Its index is thus defined as a generalized function on $G$. Beginning with the equivariant index formula of Paradan and Vergne \cite{PV3}, we obtain an index formula for $\dirac$ computed as an integral over $M$ that is free of choices and growth conditions. This formula necessarily involves equivariant differential forms with generalized coefficients and we show that the only such form required is the canonical form $\mathcal{J}(E,X)$. In certain cases the index of $\dirac$ can be interpreted in terms of a CR analogue of the space of holomorphic sections, allowing us to view our index formula as a character formula for the $G$-equivariant quantization of the almost CR manifold $(M,E)$. In particular, we obtain the ``almost CR'' quantization of a contact manifold, in a manner directly analogous to the almost complex quantization of a symplectic manifold.

Quantization

Contact geometry

Transversally elliptic operators

Equivariant index theory

0405

Almost CR Quantization via the Index of Transversally Elliptic Dirac Operators

Fitzpatrick, Daniel

18 February 2010

Let $M$ be a smooth compact manifold equipped with a co-oriented subbundle $E\subset TM$. We suppose that a compact Lie group $G$ acts on $M$ preserving $E$, such that the $G$-orbits are transverse to $E$. If the fibres of $E$ are equipped with a complex structure then it is possible to construct a $G$-invariant Dirac operator $\dirac$ in terms of the resulting almost CR structure. We show that there is a canonical equivariant differential form with generalized coefficients $\mathcal{J}(E,X)$ defined on $M$ that depends only on the $G$-action and the co-oriented subbundle $E$. Moreover, the group action is such that $\dirac$ is a $G$-transversally elliptic operator in the sense of Atiyah \cite{AT}. Its index is thus defined as a generalized function on $G$. Beginning with the equivariant index formula of Paradan and Vergne \cite{PV3}, we obtain an index formula for $\dirac$ computed as an integral over $M$ that is free of choices and growth conditions. This formula necessarily involves equivariant differential forms with generalized coefficients and we show that the only such form required is the canonical form $\mathcal{J}(E,X)$. In certain cases the index of $\dirac$ can be interpreted in terms of a CR analogue of the space of holomorphic sections, allowing us to view our index formula as a character formula for the $G$-equivariant quantization of the almost CR manifold $(M,E)$. In particular, we obtain the ``almost CR'' quantization of a contact manifold, in a manner directly analogous to the almost complex quantization of a symplectic manifold.

Quantization

Contact geometry

Transversally elliptic operators

Equivariant index theory

0405