Singer’s algebraic transfer for all ranks s in some degrees and the negation of the dimension results for the graded spaces F2 ⊗ AF2  [x1,...,xs] in degrees s+ 5

Phúc, Đặng Võ

doi:10.36227/techrxiv.20289210.v5

Cited by 2 publications

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“…As applications, we establish the dimension result for the cohit F 2 -module Q ⊗6 in generic degree 5(2 s+4 −1)+n 1 .2 s+4 and examine Conjecture 1.1 for bidegrees (5, 5 + n s ) with s ≥ 0. Next, as a continuation of the previous works in [ Boa93,Sum15,Phu23b,Phu22a,Phu22b,Phu22c,Phu22d], we shall investigate Conjecture 1.1 in bidegree (m, m + n) for n = 12 and arbitrary m > 0. The cases of ranks m = 1, 2, 3 are relatively easy to compute (cf.…”

Section: Statement Of Resultsmentioning

confidence: 87%

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On modules over the mod 2 Steenrod algebra and hit problems

Phúc¹

2023

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<p>Let us consider the prime field of two elements, $\mathbb F_2\equiv \mathbb Z_2.$ The classical "hit problem" in Algebraic Topology, which is widely recognized as an important and intriguing open problem, asks for a minimal set of generators for the polynomial algebra, $\mathcal P_m:=\mathbb F_2[x_1, x_2, \ldots, x_m]$, on $m$ variables $x_1, \ldots, x_m$, each of which has degree one, regarded as a connected unstable $\mathscr A$-module. The algebra $\mathcal P_m$ is the cohomology with $\mathbb F_2$-coefficients of the product of $m$ copies of the Eilenberg-MacLan complex $K(\mathbb F_2, 1)$. Despite extensive study over the past three decades, the hit problem remains unresolved for $m\geq 5$. </p> <p>In this article, we develop our previous work [Commun. Korean Math. Soc. 35 (2020), 371-399] on the hit problem for $\mathscr A$-module $\mathcal P_5$ in generic degree $n_s = 5(2^{s}-1) + 18.2^{s}$ with $s$ an arbitrary non-negative integer. As a result, a local version of Kameko's conjecture, which concerns the dimension of the cohit space $\mathbb F_2\otimes_{\mathscr A}\mathcal P_m$ in relation to weight vectors, has been confirmed for the case where $m = 5$ and the degree is $n_s.$ Also, we show that this conjecture also holds for any $m\geq 1$ and degrees $\leq 12.$ This study has two important applications: (1) it establishes the dimension result for the cohit space $\mathbb F_2\otimes_{\mathscr A}\mathcal P_m$ for $m = 6$ in generic degree $5(2^{s+4}-1) + n_1.2^{s+4}$ with $s > 0;$ and (2) it describes the representations of the general linear group of rank $5$ over $\mathbb F_2.$ As a result, we prove that the algebraic transfer, defined by W. Singer [Math. Z. 202 (1989), 493-523], is an isomorphism in bidegrees $(5, 5+n_s)$ with $s\geq 0.$ Besides, we obtain new results on the behavior of this algebra transfer for all homological degrees $m$. Specifically, we demonstrate that Singer's transfer is a trivial isomorphism in bidegree $(m, m+12)$ for any $m > 0$.</p>

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Section: Statement Of Resultsmentioning

confidence: 87%

“…Although Z is the minimal spike, ω(X) = (5, 0, 0, 4, 0) > ω(Z) = (3, 3, 1, 1, 1). The reader is referred to [Phu22c] for further information about a basis of Q ⊗5 37 .…”

Section: • Allowable and Non-allowable Monomial A Monomialmentioning

confidence: 99%

On modules over the mod 2 Steenrod algebra and hit problems

Phúc¹

2023

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“…Despite the fact that Z is the minimal spike, it can be observed that ω(X) = (5, 0, 0, 4, 0) > ω(Z) = (3, 3, 1, 1, 1). For further details about a basis of Q ⊗5 37 , we refer the reader to [Phu22c].…”

Section: • Allowable and Non-allowable Monomial A Monomialmentioning

confidence: 99%

On modules over the mod 2 Steenrod algebra and hit problems

Phúc¹

2023

Preprint

View full text Add to dashboard Cite

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Singer’s algebraic transfer for all ranks s in some degrees and the negation of the dimension results for the graded spaces F2 ⊗ AF2 [x1,...,xs] in degrees s+ 5

Cited by 2 publications

References 41 publications

On modules over the mod 2 Steenrod algebra and hit problems

On modules over the mod 2 Steenrod algebra and hit problems

On modules over the mod 2 Steenrod algebra and hit problems

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