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Traces of Hecke Operators

Andrew Knightly University of Maine, Orono, ME
Charles Li Academia Sinica, Taipei, Taiwan
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Hardcover ISBN: 978-0-8218-3739-9
Product Code: SURV/133
List Price: $110.00 MAA Member Price:$99.00
AMS Member Price: $88.00 Electronic ISBN: 978-1-4704-1360-6 Product Code: SURV/133.E List Price:$103.00
MAA Member Price: $92.70 AMS Member Price:$82.40
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List Price: $165.00 MAA Member Price:$148.50
AMS Member Price: $132.00 Click above image for expanded view Traces of Hecke Operators Andrew Knightly University of Maine, Orono, ME Charles Li Academia Sinica, Taipei, Taiwan Available Formats:  Hardcover ISBN: 978-0-8218-3739-9 Product Code: SURV/133  List Price:$110.00 MAA Member Price: $99.00 AMS Member Price:$88.00
 Electronic ISBN: 978-1-4704-1360-6 Product Code: SURV/133.E
 List Price: $103.00 MAA Member Price:$92.70 AMS Member Price: $82.40 Bundle Print and Electronic Formats and Save! This product is available for purchase as a bundle. Purchasing as a bundle enables you to save on the electronic version.  List Price:$165.00 MAA Member Price: $148.50 AMS Member Price:$132.00
• Book Details

Mathematical Surveys and Monographs
Volume: 1332006; 378 pp
MSC: Primary 11;

The Fourier coefficients of modular forms are of widespread interest as an important source of arithmetic information. In many cases, these coefficients can be recovered from explicit knowledge of the traces of Hecke operators. The original trace formula for Hecke operators was given by Selberg in 1956. Many improvements were made in subsequent years, notably by Eichler and Hijikata.

This book provides a comprehensive modern treatment of the Eichler–Selberg/Hijikata trace formula for the traces of Hecke operators on spaces of holomorphic cusp forms of weight $\mathtt{k}>2$ for congruence subgroups of $\operatorname{SL}_2(\mathbf{Z})$. The first half of the text brings together the background from number theory and representation theory required for the computation. This includes detailed discussions of modular forms, Hecke operators, adeles and ideles, structure theory for $\operatorname{GL}_2(\mathbf{A})$, strong approximation, integration on locally compact groups, the Poisson summation formula, adelic zeta functions, basic representation theory for locally compact groups, the unitary representations of $\operatorname{GL}_2(\mathbf{R})$, and the connection between classical cusp forms and their adelic counterparts on $\operatorname{GL}_2(\mathbf{A})$.

The second half begins with a full development of the geometric side of the Arthur–Selberg trace formula for the group $\operatorname{GL}_2(\mathbf{A})$. This leads to an expression for the trace of a Hecke operator, which is then computed explicitly. The exposition is virtually self-contained, with complete references for the occasional use of auxiliary results. The book concludes with several applications of the final formula.

Graduate students and research mathematicians interested in number theory, particularly modular forms, Hecke operators, and trace formulas.

• Chapters
• 1. Traces of Hecke operators
• 2. Odds and ends
• 3. Groundwork
• 4. The trace formula
• 5. Computation of the trace
• 6. Applications

• Reviews

• Clearly this book should be in any institutional library, and the text is warmly recommended to any serious student of modular forms and representation theory.

Zentralblatt MATH
• While this book is certainly of interest to experts in the area, it is accessible to graduate students and researchers from other disciplines that are interested in studying automorphic forms and trace formulas.

Mathematical Reviews
• Requests

Review Copy – for reviewers who would like to review an AMS book
Permission – for use of book, eBook, or Journal content
Accessibility – to request an alternate format of an AMS title
Volume: 1332006; 378 pp
MSC: Primary 11;

The Fourier coefficients of modular forms are of widespread interest as an important source of arithmetic information. In many cases, these coefficients can be recovered from explicit knowledge of the traces of Hecke operators. The original trace formula for Hecke operators was given by Selberg in 1956. Many improvements were made in subsequent years, notably by Eichler and Hijikata.

This book provides a comprehensive modern treatment of the Eichler–Selberg/Hijikata trace formula for the traces of Hecke operators on spaces of holomorphic cusp forms of weight $\mathtt{k}>2$ for congruence subgroups of $\operatorname{SL}_2(\mathbf{Z})$. The first half of the text brings together the background from number theory and representation theory required for the computation. This includes detailed discussions of modular forms, Hecke operators, adeles and ideles, structure theory for $\operatorname{GL}_2(\mathbf{A})$, strong approximation, integration on locally compact groups, the Poisson summation formula, adelic zeta functions, basic representation theory for locally compact groups, the unitary representations of $\operatorname{GL}_2(\mathbf{R})$, and the connection between classical cusp forms and their adelic counterparts on $\operatorname{GL}_2(\mathbf{A})$.

The second half begins with a full development of the geometric side of the Arthur–Selberg trace formula for the group $\operatorname{GL}_2(\mathbf{A})$. This leads to an expression for the trace of a Hecke operator, which is then computed explicitly. The exposition is virtually self-contained, with complete references for the occasional use of auxiliary results. The book concludes with several applications of the final formula.

Graduate students and research mathematicians interested in number theory, particularly modular forms, Hecke operators, and trace formulas.

• Chapters
• 1. Traces of Hecke operators
• 2. Odds and ends
• 3. Groundwork
• 4. The trace formula
• 5. Computation of the trace
• 6. Applications
• Clearly this book should be in any institutional library, and the text is warmly recommended to any serious student of modular forms and representation theory.

Zentralblatt MATH
• While this book is certainly of interest to experts in the area, it is accessible to graduate students and researchers from other disciplines that are interested in studying automorphic forms and trace formulas.

Mathematical Reviews
Review Copy – for reviewers who would like to review an AMS book
Permission – for use of book, eBook, or Journal content
Accessibility – to request an alternate format of an AMS title
Please select which format for which you are requesting permissions.