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ON CHOW-WEIGHT HOMOLOGY OF GEOMETRIC MOTIVES. / Bondarko, Mikhail V.; Sosnilo, Vladimir A.

In: Transactions of the American Mathematical Society, Vol. 375, No. 1, 01.01.2022, p. 173-244.

Research output: Contribution to journalArticlepeer-review

Harvard

Bondarko, MV & Sosnilo, VA 2022, 'ON CHOW-WEIGHT HOMOLOGY OF GEOMETRIC MOTIVES', Transactions of the American Mathematical Society, vol. 375, no. 1, pp. 173-244. https://doi.org/10.1090/tran/8467

APA

Bondarko, M. V., & Sosnilo, V. A. (2022). ON CHOW-WEIGHT HOMOLOGY OF GEOMETRIC MOTIVES. Transactions of the American Mathematical Society, 375(1), 173-244. https://doi.org/10.1090/tran/8467

Vancouver

Bondarko MV, Sosnilo VA. ON CHOW-WEIGHT HOMOLOGY OF GEOMETRIC MOTIVES. Transactions of the American Mathematical Society. 2022 Jan 1;375(1):173-244. https://doi.org/10.1090/tran/8467

Author

Bondarko, Mikhail V. ; Sosnilo, Vladimir A. / ON CHOW-WEIGHT HOMOLOGY OF GEOMETRIC MOTIVES. In: Transactions of the American Mathematical Society. 2022 ; Vol. 375, No. 1. pp. 173-244.

BibTeX

@article{efe6c5f9697647ec8fa3cf2e7b26eaa9,
title = "ON CHOW-WEIGHT HOMOLOGY OF GEOMETRIC MOTIVES",
abstract = "We describe new Chow-weight (co)homology theories on the category DMgmeff (k, R) of effective geometric Voevodsky motives (R is the coefficient ring). These theories are interesting “modifications” of motivic homology; Chow-weight homology detects whether a motive M ∈ Obj DMgmeff (k, R) is r-effective (i.e., belongs to the rth Tate twist DMgmeff (k, R)(r) of effective motives), bounds the weights of M (in the sense of the Chow weight structure defined by the first author), and detects the effectivity of “the lower weight pieces” of M. Moreover, we calculate the connectivity of M (in the sense of Voevodsky{\textquoteright}s homotopy t-structure, i.e., we study motivic homology) and prove that the exponents of the higher motivic homology groups (of an “integral” motive) are finite whenever these groups are torsion. We apply the latter statement to the study of higher Chow groups of arbitrary varieties. These motivic properties of M have plenty of applications. They are closely related to the (co)homology of M; in particular, if the Chow groups of a variety X vanish up to dimension r − 1 then the highest Deligne weight factors of the (singular or {\'e}tale) cohomology of X with compact support are r-effective. Our results yield vast generalizations of the so-called “decomposition of the diagonal” theorems, and we re-prove and extend some of earlier statements of this sort.",
author = "Bondarko, {Mikhail V.} and Sosnilo, {Vladimir A.}",
year = "2022",
month = jan,
day = "1",
doi = "10.1090/tran/8467",
language = "English",
volume = "375",
pages = "173--244",
journal = "Transactions of the American Mathematical Society",
issn = "0002-9947",
publisher = "American Mathematical Society",
number = "1",

}

RIS

TY - JOUR

T1 - ON CHOW-WEIGHT HOMOLOGY OF GEOMETRIC MOTIVES

AU - Bondarko, Mikhail V.

AU - Sosnilo, Vladimir A.

PY - 2022/1/1

Y1 - 2022/1/1

N2 - We describe new Chow-weight (co)homology theories on the category DMgmeff (k, R) of effective geometric Voevodsky motives (R is the coefficient ring). These theories are interesting “modifications” of motivic homology; Chow-weight homology detects whether a motive M ∈ Obj DMgmeff (k, R) is r-effective (i.e., belongs to the rth Tate twist DMgmeff (k, R)(r) of effective motives), bounds the weights of M (in the sense of the Chow weight structure defined by the first author), and detects the effectivity of “the lower weight pieces” of M. Moreover, we calculate the connectivity of M (in the sense of Voevodsky’s homotopy t-structure, i.e., we study motivic homology) and prove that the exponents of the higher motivic homology groups (of an “integral” motive) are finite whenever these groups are torsion. We apply the latter statement to the study of higher Chow groups of arbitrary varieties. These motivic properties of M have plenty of applications. They are closely related to the (co)homology of M; in particular, if the Chow groups of a variety X vanish up to dimension r − 1 then the highest Deligne weight factors of the (singular or étale) cohomology of X with compact support are r-effective. Our results yield vast generalizations of the so-called “decomposition of the diagonal” theorems, and we re-prove and extend some of earlier statements of this sort.

AB - We describe new Chow-weight (co)homology theories on the category DMgmeff (k, R) of effective geometric Voevodsky motives (R is the coefficient ring). These theories are interesting “modifications” of motivic homology; Chow-weight homology detects whether a motive M ∈ Obj DMgmeff (k, R) is r-effective (i.e., belongs to the rth Tate twist DMgmeff (k, R)(r) of effective motives), bounds the weights of M (in the sense of the Chow weight structure defined by the first author), and detects the effectivity of “the lower weight pieces” of M. Moreover, we calculate the connectivity of M (in the sense of Voevodsky’s homotopy t-structure, i.e., we study motivic homology) and prove that the exponents of the higher motivic homology groups (of an “integral” motive) are finite whenever these groups are torsion. We apply the latter statement to the study of higher Chow groups of arbitrary varieties. These motivic properties of M have plenty of applications. They are closely related to the (co)homology of M; in particular, if the Chow groups of a variety X vanish up to dimension r − 1 then the highest Deligne weight factors of the (singular or étale) cohomology of X with compact support are r-effective. Our results yield vast generalizations of the so-called “decomposition of the diagonal” theorems, and we re-prove and extend some of earlier statements of this sort.

UR - http://www.scopus.com/inward/record.url?scp=85124606246&partnerID=8YFLogxK

U2 - 10.1090/tran/8467

DO - 10.1090/tran/8467

M3 - Article

AN - SCOPUS:85124606246

VL - 375

SP - 173

EP - 244

JO - Transactions of the American Mathematical Society

JF - Transactions of the American Mathematical Society

SN - 0002-9947

IS - 1

ER -

ID: 125931493