Shachar Carmeli scite author profile

We extend the theory of ambidexterity developed by M. J. Hopkins and J. Lurie and show that the $$\infty $$ ∞ -categories of $$T\!\left( n\right) $$ T n -local spectra are $$\infty $$ ∞ -semiadditive for all n, where $$T\!\left( n\right) $$ T n is the telescope on a $$v_{n}$$ v n -self map of a type n spectrum. This generalizes and provides a new proof for the analogous result of Hopkins–Lurie on $$K\!\left( n\right) $$ K n -local spectra. Moreover, we show that $$K\!\left( n\right) $$ K n -local and $$T\!\left( n\right) $$ T n -local spectra are respectively, the minimal and maximal 1-semiadditive localizations of spectra with respect to a homotopy ring, and that all such localizations are in fact $$\infty $$ ∞ -semiadditive. As a consequence, we deduce that several different notions of “bounded chromatic height” for homotopy rings are equivalent, and in particular, that $$T\!\left( n\right) $$ T n -homology of $$\pi $$ π -finite spaces depends only on the nth Postnikov truncation. A key ingredient in the proof of the main result is a construction of a certain power operation for commutative ring objects in stable 1-semiadditive $$\infty $$ ∞ -categories. This is closely related to some known constructions for Morava E-theory and is of independent interest. Using this power operation we also give a new proof, and a generalization, of a nilpotence conjecture of J. P. May, which was proved by A. Mathew, N. Naumann, and J. Noel.

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Tenfold topology of crystals: Unified classification of crystalline topological insulators and superconductors

Cornfeld

Carmeli

2021

Phys. Rev. Research

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Ambidexterity in Chromatic Homotopy Theory

Carmeli¹,

Schlank²,

Yanovski³

2018

Preprint

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We extend the theory of ambidexterity developed by M. J. Hopkins and J. Lurie, and show that the ∞-categories of T (n)-local spectra are ∞-semiadditive for all n, where T (n) is the telescope on a vn-self map of a type n spectrum. This extends and provides a new proof for the analogous result of Hopkins-Lurie on K(n)-local spectra. Moreover, we show that K(n)-local and T (n)-local spectra are respectively, the minimal and maximal 1-semiadditive localizations of spectra with respect to a homotopy ring, and that all such localizations are in fact ∞-semiadditive. As a consequence, we deduce that several different notions of "bounded chromatic height" for homotopy rings are equivalent, and in particular, that T (n)-homology of π-finite spaces depends only on the n-th Postnikov truncation. A key ingredient in the proof of the main result, is a construction of a certain power operation for commutative ring objects in stable 1-semiadditive ∞-categories. This generalizes some known constructions for Morava E-theory, and is of independent interest. Using this power operation we also give a new proof, and a generalization, of a nilpotence conjecture of J.P. May, that was proved by A. Mathew, N. Naumann, and J. Noel.

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Chromatic Cyclotomic Extensions

Carmeli¹,

Schlank²,

Yanovski³

2021

Preprint

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We construct Galois extensions of the T (n)-local sphere, lifting all finite abelian Galois extensions of the K(n)-local sphere. This is achieved by realizing them as higher semiadditive analogues of cyclotomic extensions. Combining this with a general form of Kummer theory, we lift certain elements from the K(n)-local Picard group to the T (n)-local Picard group.Color circles from the enlarged 1708 edition of the Treatise on Miniature Painting, Claude Boutet.

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Shachar Carmeli

Ambidexterity and height

Ambidexterity in chromatic homotopy theory

Tenfold topology of crystals: Unified classification of crystalline topological insulators and superconductors

Ambidexterity in Chromatic Homotopy Theory

Chromatic Cyclotomic Extensions

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