A General Blue-Shift Phenomenon

In chromatic homotopy theory, there is a well-known conjecture called blue-shift phenomenon (BSP). In this paper, we propose a general blue-shift phenomenon (GBSP) which unifies BSP and a new variant of BSP introduced by Balmer-Sanders under one framework. To explain GBSP, we use the roots of \(p^j\...

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Bibliographic Details
Published inarXiv.org
Main Author Ruan, Yangyang
Format Paper
LanguageEnglish
Published Ithaca Cornell University Library, arXiv.org 08.04.2024
Subjects
Blue shift
Coefficients
Commutativity
Group theory
Homotopy theory
Polynomials
Rings (mathematics)
Topology
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Summary:In chromatic homotopy theory, there is a well-known conjecture called blue-shift phenomenon (BSP). In this paper, we propose a general blue-shift phenomenon (GBSP) which unifies BSP and a new variant of BSP introduced by Balmer-Sanders under one framework. To explain GBSP, we use the roots of \(p^j\)-series of the formal group law of a complex-oriented spectrum \(E\) in the homotopy group of the generalized Tate spectrum of \(E\). We also incorporate the relationship between roots and coefficients of a polynomial in any commutative ring. With this fresh perspective, we successfully achieve our goal of explaining GBSP for certain abelian cases. Additionally, we establish that the generalized Tate construction lowers Bousfield class, along with numerous Tate vanishing results. These findings strengthen and extend previous theorems of Balmer-Sanders and Ando-Morava-Sadofsky. While our approach only reproduces a result of Barthel-Hausmann-Naumann-Nikolaus-Noel-Stapleton, it appears to be more accessible for dealing with GBSP in non-abelian cases. Furthermore, our approach simplifies the original proof of a result of Bonventre-Guillou-Stapleton, indicating that its applications are not limited to GBSP. As a result, our approach holds significant promise and merits further study and application.
ISSN:2331-8422