Bastiaan Cnossen, Rune Haugseng, Tobias Lenz, Sil Linskens
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引用次数: 0
摘要
在本文中,我们扩展了等变无限环空间理论,以考虑乘法规范:对于每一个有限群 $G$,我们都构建了连接真正 $G$ 谱的 $/infty$ 类别与空间值麦基函子之间比较的乘法细化(这是吉鲁-梅首次证明的),并以此给出了连接规范等价环谱作为空间值坦巴拉函子的描述。更详细地说,我们首先引入并研究了同位相干规范(半)环的一般概念,并将其与相应的$\infty$-category of bispans中的保积函子相鉴别。在等价设定中,这将空间值的坦巴拉函数与关于空间中的类群$G$-交换单元上的某个规范单元结构的规范代数相识别。然后我们证明,这一结构与希尔-霍普金斯-拉文尔规范给出的连接$G$谱上的规范单元结构具有典型等价性。结合我们与埃尔曼托-豪森(Elmanto-Haugseng)和巴威克-格拉斯曼-马修-尼古拉斯(Barwick-Glasman-Mathew-Nikolaus)的比较结果,我们得出了等变代数 K 理论谱上的规范环结构。
Normed equivariant ring spectra and higher Tambara functors
In this paper we extend equivariant infinite loop space theory to take into
account multiplicative norms: For every finite group $G$, we construct a
multiplicative refinement of the comparison between the $\infty$-categories of
connective genuine $G$-spectra and space-valued Mackey functors, first proven
by Guillou-May, and use this to give a description of connective normed
equivariant ring spectra as space-valued Tambara functors. In more detail, we first introduce and study a general notion of
homotopy-coherent normed (semi)rings, and identify these with
product-preserving functors out of a corresponding $\infty$-category of
bispans. In the equivariant setting, this identifies space-valued Tambara
functors with normed algebras with respect to a certain normed monoidal
structure on grouplike $G$-commutative monoids in spaces. We then show that the
latter is canonically equivalent to the normed monoidal structure on connective
$G$-spectra given by the Hill-Hopkins-Ravenel norms. Combining our comparison
with results of Elmanto-Haugseng and Barwick-Glasman-Mathew-Nikolaus, we
produce normed ring structures on equivariant algebraic K-theory spectra.
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