Item Successfully Added to Cart
An error was encountered while trying to add the item to the cart. Please try again.
OK
Please make all selections above before adding to cart
OK
Share this page via the icons above, or by copying the link below:
Copy To Clipboard
Successfully Copied!
Dynamics in One Non-Archimedean Variable
 
Robert L. Benedetto Amherst College, Amherst, MA
Dynamics in One Non-Archimedean Variable
Hardcover ISBN:  978-1-4704-4688-8
Product Code:  GSM/198
List Price: $135.00
MAA Member Price: $121.50
AMS Member Price: $108.00
eBook ISBN:  978-1-4704-5106-6
Product Code:  GSM/198.E
List Price: $75.00
MAA Member Price: $67.50
AMS Member Price: $60.00
Hardcover ISBN:  978-1-4704-4688-8
eBook: ISBN:  978-1-4704-5106-6
Product Code:  GSM/198.B
List Price: $210.00 $172.50
MAA Member Price: $189.00 $155.25
AMS Member Price: $168.00 $138.00
Dynamics in One Non-Archimedean Variable
Click above image for expanded view
Dynamics in One Non-Archimedean Variable
Robert L. Benedetto Amherst College, Amherst, MA
Hardcover ISBN:  978-1-4704-4688-8
Product Code:  GSM/198
List Price: $135.00
MAA Member Price: $121.50
AMS Member Price: $108.00
eBook ISBN:  978-1-4704-5106-6
Product Code:  GSM/198.E
List Price: $75.00
MAA Member Price: $67.50
AMS Member Price: $60.00
Hardcover ISBN:  978-1-4704-4688-8
eBook ISBN:  978-1-4704-5106-6
Product Code:  GSM/198.B
List Price: $210.00 $172.50
MAA Member Price: $189.00 $155.25
AMS Member Price: $168.00 $138.00
  • Book Details
     
     
    Graduate Studies in Mathematics
    Volume: 1982019; 463 pp
    MSC: Primary 37

    The theory of complex dynamics in one variable, initiated by Fatou and Julia in the early twentieth century, concerns the iteration of a rational function acting on the Riemann sphere. Building on foundational investigations of \(p\)-adic dynamics in the late twentieth century, dynamics in one non-archimedean variable is the analogous theory over non-archimedean fields rather than over the complex numbers. It is also an essential component of the number-theoretic study of arithmetic dynamics.

    This textbook presents the fundamentals of non-archimedean dynamics, including a unified exposition of Rivera-Letelier's classification theorem, as well as results on wandering domains, repelling periodic points, and equilibrium measures. The Berkovich projective line, which is the appropriate setting for the associated Fatou and Julia sets, is developed from the ground up, as are relevant results in non-archimedean analysis. The presentation is accessible to graduate students with only first-year courses in algebra and analysis under their belts, although some previous exposure to non-archimedean fields, such as the \(p\)-adic numbers, is recommended. The book should also be a useful reference for more advanced students and researchers in arithmetic and non-archimedean dynamics.

    Readership

    Graduate students and researchers interested in arithmetic and non-archimedean dynamics.

  • Table of Contents
     
     
    • Chapters
    • Introduction
    • Background
    • Basic dynamics on $\mathbb {P}^1(K)$
    • Some background on non-archimedean fields
    • Power series and Laurent series
    • Elementary non-archimedean dynamics
    • Fundamentals of non-archimedean dynamics
    • Fatou and Julia sets
    • The Berkovich line
    • The Berkovich projective line
    • Rational functions and Berkovich space
    • Dynamics on the Berkovich line
    • Introduction to dynamics on Berkovich space
    • Classifying Berkovich Fatou components
    • Further results on periodic components
    • Wandering domains
    • Repelling points in Berkovich space
    • The equilibrium measure
    • Proofs from non-archimedean analysis
    • Proofs of results from non-archimedean analysis
    • Proofs of Berkovich space results
    • Proofs of results on Berkovich maps
    • Appendices
    • Fatou components without Berkovich space
    • Other constructions of Berkovich spaces
  • Reviews
     
     
    • This book would be good for a topics course in Berkovich space for a graduate student familiar with real and complex analysis. [Bennedeto] makes Berkovich space accessible to the new researcher.

      Bianca Thompson, MAA Reviews
  • Requests
     
     
    Review Copy – for publishers of book reviews
    Permission – for use of book, eBook, or Journal content
    Accessibility – to request an alternate format of an AMS title
Volume: 1982019; 463 pp
MSC: Primary 37

The theory of complex dynamics in one variable, initiated by Fatou and Julia in the early twentieth century, concerns the iteration of a rational function acting on the Riemann sphere. Building on foundational investigations of \(p\)-adic dynamics in the late twentieth century, dynamics in one non-archimedean variable is the analogous theory over non-archimedean fields rather than over the complex numbers. It is also an essential component of the number-theoretic study of arithmetic dynamics.

This textbook presents the fundamentals of non-archimedean dynamics, including a unified exposition of Rivera-Letelier's classification theorem, as well as results on wandering domains, repelling periodic points, and equilibrium measures. The Berkovich projective line, which is the appropriate setting for the associated Fatou and Julia sets, is developed from the ground up, as are relevant results in non-archimedean analysis. The presentation is accessible to graduate students with only first-year courses in algebra and analysis under their belts, although some previous exposure to non-archimedean fields, such as the \(p\)-adic numbers, is recommended. The book should also be a useful reference for more advanced students and researchers in arithmetic and non-archimedean dynamics.

Readership

Graduate students and researchers interested in arithmetic and non-archimedean dynamics.

  • Chapters
  • Introduction
  • Background
  • Basic dynamics on $\mathbb {P}^1(K)$
  • Some background on non-archimedean fields
  • Power series and Laurent series
  • Elementary non-archimedean dynamics
  • Fundamentals of non-archimedean dynamics
  • Fatou and Julia sets
  • The Berkovich line
  • The Berkovich projective line
  • Rational functions and Berkovich space
  • Dynamics on the Berkovich line
  • Introduction to dynamics on Berkovich space
  • Classifying Berkovich Fatou components
  • Further results on periodic components
  • Wandering domains
  • Repelling points in Berkovich space
  • The equilibrium measure
  • Proofs from non-archimedean analysis
  • Proofs of results from non-archimedean analysis
  • Proofs of Berkovich space results
  • Proofs of results on Berkovich maps
  • Appendices
  • Fatou components without Berkovich space
  • Other constructions of Berkovich spaces
  • This book would be good for a topics course in Berkovich space for a graduate student familiar with real and complex analysis. [Bennedeto] makes Berkovich space accessible to the new researcher.

    Bianca Thompson, MAA Reviews
Review Copy – for publishers of book reviews
Permission – for use of book, eBook, or Journal content
Accessibility – to request an alternate format of an AMS title
You may be interested in...
Please select which format for which you are requesting permissions.