Book contents
- Frontmatter
- Contents
- Preface
- 1 Unstable global homotopy theory
- 2 Ultra-commutative monoids
- 3 Equivariant stable homotopy theory
- 4 Global stable homotopy theory
- 5 Ultra-commutative ring spectra
- 6 Global Thom and K-theory spectra
- Appendix A Compactly generated spaces
- Appendix B Equivariant spaces
- Appendix C Enriched functor categories
- References
- Index of symbols
- Index
6 - Global Thom and K-theory spectra
Published online by Cambridge University Press: 22 August 2018
- Frontmatter
- Contents
- Preface
- 1 Unstable global homotopy theory
- 2 Ultra-commutative monoids
- 3 Equivariant stable homotopy theory
- 4 Global stable homotopy theory
- 5 Ultra-commutative ring spectra
- 6 Global Thom and K-theory spectra
- Appendix A Compactly generated spaces
- Appendix B Equivariant spaces
- Appendix C Enriched functor categories
- References
- Index of symbols
- Index
Summary
Equivariant homotopy theory started from geometrically motivated questions about symmetries of manifolds. Several important equivariant phenomena occur not just for a particular group, but in a uniform way for all groups. Prominent examples include stable homotopy, K-theory or bordism. Global equivariant homotopy theory studies such uniform phenomena, i.e., universal symmetries encoded by simultaneous and compatible actions of all compact Lie groups. This book introduces graduate students and researchers to global equivariant homotopy theory. The framework is based on the new notion of global equivalences for orthogonal spectra, a much finer notion of equivalence than what is traditionally considered. The treatment is largely self-contained and contains many examples, making it suitable as a textbook for an advanced graduate class. At the same time, the book is a comprehensive research monograph with detailed calculations that reveal the intrinsic beauty of global equivariant phenomena.
- Type
- Chapter
- Information
- Global Homotopy Theory , pp. 543 - 686Publisher: Cambridge University PressPrint publication year: 2018