Laguerre Calculus and Its Applications on the Heisenberg Group

Carlos Berenstein, University of Maryland, College Park, MD, Der-Chen Chang, Georgetown University, Washington, DC, and
Jingzhi Tie, University of Georgia, Athens, GA

For nearly two centuries, the relation between analytic functions of one complex variable, their boundary values, harmonic functions, and the theory of Fourier series has been one of the central topics of study in mathematics. The topic stands on its own, yet also provides very useful mathematical applications.

This text provides a self-contained introduction to the corresponding questions in several complex variables: namely, analysis on the Heisenberg group and the study of the solutions of the boundary Cauchy-Riemann equations. In studying this material, readers are exposed to analysis in non-commutative compact and Lie groups, specifically the rotation group and the Heisenberg groups--both fundamental in the theory of group representations and physics.

Introduced in a concrete setting are the main ideas of the Calderón-Zygmund-Stein school of harmonic analysis. Also considered in the book are some less conventional problems of harmonic and complex analysis, in particular, the Morera and Pompeiu problems for the Heisenberg group, which relates to questions in optics, tomography, and engineering.

The book was borne of graduate courses and seminars held at the University of Maryland (College Park), the University of Toronto (ON), Georgetown University (Washington, DC), and the University of Georgia (Athens). Readers should have an advanced undergraduate understanding of Fourier analysis and complex analysis in one variable.

Titles in this series are copublished with International Press, Cambridge, MA.

• The Laguerre calculus
• Estimates for powers of the sub-Laplacian
• Estimates for the spectrum projection operators of the sub-Laplacian
• The inverse of the operator $\square_{\alpha} = {\sum}^n_{j=1}({X^2_j} - {X^2_{j+n}}) - 2i{\alpha}$T
• The explicit solution of the $\bar{\partial}$-Neumann problem in a non-isotropic Siegel domain
• Injectivity of the Pompeiu transform in the isotropic H$_n$
• Morera-type theorems for holomorphic $\mathcal H^p$ spaces in H$_n$ (I)
• Morera-type theorems for holomorphic $\mathcal H^p$ spaces in H$_n$ (II)

Details:
 
 
• Publisher: American Mathematical Society, International Press
• Distributor: American Mathematical Society
• Series: AMS/IP Studies in Advanced Mathematics, ISSN: 1089-3288
• Volume: 22
• Publication Year: 2001
• ISBN: 0-8218-2761-8
• Paging: approximately 328 pp.
• Binding: Hardcover
• List Price: $64
• Institutional Member Price: $51
• Individual Member Price: $51
• Order Code: AMSIP/22

You can browse the  book by chapters here (I am not sure how long I can keep this page here duo to the copyright ):
Chapter one: Laguerre Calculus
Chapter two: Powers of  the Sub-Laplacian
Chapter three:Spectrum Projection Operators of the Sub-Laplacian
Chapter four:The Inverse of  an Operater
Chapter five:$\bar\partial$-Neumann Problem for the Siegel Domains
Chapter six: the Pompeiu Transform
Chapter seven: Morera-type Theorem on the Heisenberg Group:I
Chapter eight:Morera-type Theorem on the Heisenberg Group:II