We study three restrictions on normalizers or centralizers in finite p-groups, namely: (i) |NG(H):H|≤pk for every (Formula Presented.), (ii) |NG(〈g〉):〈g〉|≤pk for every (Formula Presented.), and (iii) |CG(g): 〈g〉 ≤ pk for every (Formula Presented.). We prove that (i) and (ii) are equivalent, and that the order of a non-Dedekind finite p-group satisfying any of these three conditions is bounded for p > 2. (For condition (i) this fact was proved earlier by Zhang and Guo [14].) More precisely, we get the best possible bound for the order of G in all three cases, which is |G| ≤ p2k+2. The order of the group cannot be bounded for p = 2, but we are able to identify two infinite families of 2-groups out of which |G| ≤ 2f(k) for some function f(k) depending only on k.
Some restrictions on normalizers or centralizers in finite p-groups
Tortora A.;
2015
Abstract
We study three restrictions on normalizers or centralizers in finite p-groups, namely: (i) |NG(H):H|≤pk for every (Formula Presented.), (ii) |NG(〈g〉):〈g〉|≤pk for every (Formula Presented.), and (iii) |CG(g): 〈g〉 ≤ pk for every (Formula Presented.). We prove that (i) and (ii) are equivalent, and that the order of a non-Dedekind finite p-group satisfying any of these three conditions is bounded for p > 2. (For condition (i) this fact was proved earlier by Zhang and Guo [14].) More precisely, we get the best possible bound for the order of G in all three cases, which is |G| ≤ p2k+2. The order of the group cannot be bounded for p = 2, but we are able to identify two infinite families of 2-groups out of which |G| ≤ 2f(k) for some function f(k) depending only on k.I documenti in IRIS sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.
