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Group cohomology and algebraic cycles / Burt Totaro, University of California, Los Angeles.

By: Material type: TextTextSeries: Cambridge tracts in mathematics ; 204.Publisher: Cambridge : Cambridge University Press, 2014Description: 1 online resource (xvi, 228 pages) : digital, PDF file(s)Content type:
  • text
Media type:
  • computer
Carrier type:
  • online resource
ISBN:
  • 9781139059480 (ebook)
Other title:
  • Group Cohomology & Algebraic Cycles
Subject(s): Additional physical formats: Print version: : No titleDDC classification:
  • 512/.64 23
LOC classification:
  • QA612.3 .T68 2014
Online resources: Summary: Group cohomology reveals a deep relationship between algebra and topology, and its recent applications have provided important insights into the Hodge conjecture and algebraic geometry more broadly. This book presents a coherent suite of computational tools for the study of group cohomology and algebraic cycles. Early chapters synthesize background material from topology, algebraic geometry, and commutative algebra so readers do not have to form connections between the literatures on their own. Later chapters demonstrate Peter Symonds's influential proof of David Benson's regularity conjecture, offering several new variants and improvements. Complete with concrete examples and computations throughout, and a list of open problems for further study, this book will be valuable to graduate students and researchers in algebraic geometry and related fields.
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Title from publisher's bibliographic system (viewed on 05 Oct 2015).

Group cohomology reveals a deep relationship between algebra and topology, and its recent applications have provided important insights into the Hodge conjecture and algebraic geometry more broadly. This book presents a coherent suite of computational tools for the study of group cohomology and algebraic cycles. Early chapters synthesize background material from topology, algebraic geometry, and commutative algebra so readers do not have to form connections between the literatures on their own. Later chapters demonstrate Peter Symonds's influential proof of David Benson's regularity conjecture, offering several new variants and improvements. Complete with concrete examples and computations throughout, and a list of open problems for further study, this book will be valuable to graduate students and researchers in algebraic geometry and related fields.

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