• Title/Summary/Keyword: homotopy groups of mapping spaces

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HOMOTOPY PROPERTIES OF map(ΣnℂP2, Sm)

  • Lee, Jin-ho
    • Journal of the Korean Mathematical Society
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    • v.58 no.3
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    • pp.761-790
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    • 2021
  • For given spaces X and Y, let map(X, Y) and map*(X, Y) be the unbased and based mapping spaces from X to Y, equipped with compact-open topology respectively. Then let map(X, Y ; f) and map*(X, Y ; g) be the path component of map(X, Y) containing f and map*(X, Y) containing g, respectively. In this paper, we compute cohomotopy groups of suspended complex plane πn+mnℂP2) for m = 6, 7. Using these results, we classify path components of the spaces map(ΣnℂP2, Sm) up to homotopy equivalence. We also determine the generalized Gottlieb groups Gn(ℂP2, Sm). Finally, we compute homotopy groups of mapping spaces map(ΣnℂP2, Sm; f) for all generators [f] of [ΣnℂP2, Sm], and Gottlieb groups of mapping components containing constant map map(ΣnℂP2, Sm; *).

Evaluation Subgroups of Mapping Spaces over Grassmann Manifolds

  • Abdelhadi Zaim
    • Kyungpook Mathematical Journal
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    • v.63 no.1
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    • pp.131-139
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    • 2023
  • Let Vk,n (ℂ) denote the complex Steifel and Grk,n (ℂ) the Grassmann manifolds for 1 ≤ k < n. In this paper, we compute, in terms of the Sullivan minimal models, the evaluation subgroups and, more generally, the relative evaluation subgroups of the fibration p : Vk,k+n (ℂ) → Grk,k+n (ℂ). In particular, we prove that G* (Grk,k+n (ℂ), Vk,k+n (ℂ) ; p) is isomorphic to Grel* (Grk,k+n (ℂ), Vk,k+n (ℂ) ; p) ⊕ G* (Vk,k+n (ℂ)).