共查询到20条相似文献,搜索用时 107 毫秒
1.
2.
《中国科学A辑》2008,(6)
研究了有限秩的幂零群的自同构,证明了定理设幂零群G=KP,其中P是有限秩的幂零p-群,K是G的有限秩的p′-自由的正规子群,p不属于K的谱S_p(K).设α和β是G的两个p-自同构,记I:= <(αβ(g))·(βα(g))~(-1)|g∈G>,则(i)当I是有限循环群时,α和β生成一个有限p-群;在下列2种情形下,α和β生成一个可解的剩余有限p-群,它是有限生成的无挠幂零群被有限p-群的扩张.(ii)当I=Z_p∞时;(iii)当I=Z_pm⊕Z_p∞时;在下列4种情形下,α和β也生成一个可解的剩余有限p-群,它的幂零长度至多是3.(iv)当I是无挠的局部循环群时;(v)当I有子群列1相似文献
3.
设G=KP,其中K是有限生成的p'-自由的幂零群,P是有限秩的幂零p-群,并且[K,P]=1,即G是K和P的中心积,α和β是G的两个p-自同构,记I=〈(αβ(g))·(βα(g))-1|g∈G〉,则(i)当I=Zpn (○+) Zp∞时,α和β生成一个可解的剩余有限p-群,它是有限生成的无挠幂零群被有限p-群的扩张;在下列3种情形下,α和β生成一个可解的剩余有限p-群,其幂零长度不超过3.(ii)当I=Z (○+) Zp∞时;(iii)当I有正规列1<J<I,其商因子分别为无限循环群和有限循环群时;(iv)当I有正规列1<L<J<I,其3个商因子分别为无限循环群、有限循环群和拟循环p-群时.特别地,当上述群K是一个FC-群时,α和β生成的群是有限生成的无挠幂零群被有限p-群的扩张. 相似文献
4.
《中国科学A辑》2007,(9)
设G=KP,其中K是有限生成的p′-自由的幂零群,P是有限秩的幂零p-群,并且[K,P]=1,即G是K和P的中心积,α和β是G的两个p-自同构,记I:=〈(αβ(g))·(βα(g))~(-1)|g∈G〉,则(i)当I=Z_(p~n)(?)Z_(p~∞)时,α和β生成一个可解的剩余有限p-群,它是有限生成的无挠幂零群被有限p-群的扩张;在下列3种情形下,α和β生成一个可解的剩余有限p-群,其幂零长度不超过3.(ii)当I=Z(?)Z_(p~∞)时;(iii)当I有正规列1相似文献
5.
6.
设幂零群G=KP=PK,其中P是有限秩的幂零p-群,K是G的有限秩的p-自由的正规子群,p不属于K的谱Sp(K).设1=ζ0Gζ1G···ζcG=G是G的上中心列,α和β是G的两个p-自同构,把α,β在每个ζiG/ζi-1G上的诱导自同构分别记为αi和βi,又记Ii:=Im(αiβi-βiαi),则(i)如果每个Ii都是有限循环群,并且I:=(αβ(g))(βα(g))-1|g∈G是G的有限子群,那么α和β生成一个有限p-群;(ii)如果Ii或为有限循环群,或为拟循环p-群,或为Zpn⊕Zp∞对某自然数n,那么α和β生成一个可解的剩余有限p-群,它是有限生成的无挠幂零群被有限p-群的扩张;(iii)如果Ii或为有限循环群,或为拟循环p-群,或为Zpn⊕Zp∞,或为无挠的局部幂零群,或Ii有正规列1JiIi,其商因子分别为有限循环群、无挠的局部幂零群,或Ii=Zp∞⊕Ji,Ji为无挠的局部幂零群,或Ii有正规列1KiJiIi,其商因子分别为有限循环群、拟循环p-群、无挠的局部循环群,那么α和β生成一个可解的剩余有限p-群,它的幂零长度至多是3.特别地,当K是一个FC-群时,在情形(iii),α和β生成的群也是有限生成的无挠幂零群被有限p-群的扩张.此外,如果G=KP里,K是一个FC-群,对G的下中心列考虑了类似的问题,得到了"对偶"的结果. 相似文献
7.
设G是剩余有限minimax可解群,α是G的自同构且φ:G→G(g→[g,α])是满射,则有以下结果:(1)当α~p=1时,G是幂零类不超过h(p)的幂零群的有限扩张,其中h(p)是只与p有关的函数;(2)当α~4=1时,G存在一个指数有限的特征子群H,使得H″≤Z(H)和C_H(α~2)是Abel群.并且C_G(α~2)和G/[G,α~2]都是Abel群的有限扩张. 相似文献
8.
9.
10.
有限秩的幂零p-群的p-自同构 总被引:2,自引:0,他引:2
设G是一个有限秩的幂零p-群,α和β是G的两个p-自同构,记I= ((αβ(g))(βα(g))-1)|g∈G),则(i)当I是有限循环群时,α和β生成一个有限P-群; (ii)当I是拟循环p-群时,α和β生成一个可解的剩余有限P-群,它是有限生成的无挠幂零群被有限p-群的扩张. 相似文献
11.
设G为有限群,cd(G)表示G的所有复不可约特征标次数的集合.本文研究了不可约特征标次数为等差数的有限可解群,得到两个结果:如果cd(G)={1,1+d,1+2d,…,1+kd},则k≤2或cd(G)={1,2,3,4};如果cd(G)={1,a,a+d,a+2d,…,a+kd},|cd(G)|≥4,(a,d)=1,则cd(G)={1,2,2e+1,2e+1,2(e+1)},并给出了d>1时群的结构. 相似文献
12.
Let {ie166-01} be a set of finite groups. A group G is said to be saturated by the groups in {ie166-02} if every finite subgroup
of G is contained in a subgroup isomorphic to a member of {ie166-03}. It is proved that a periodic group G saturated by groups
in a set {U3(2m) | m = 1, 2, …} is isomorphic to U3(Q) for some locally finite field Q of characteristic 2; in particular, G is locally finite.
__________
Translated from Algebra i Logika, Vol. 47, No. 3, pp. 288–306, May–June, 2008. 相似文献
13.
记ZG为有限群G的整群环,△n(G)为增广理想△(G)的n次幂,Qn(G)=△"(G)/△n 1(G)为G的增广商群.本文考虑了二面体群D2tk(k 奇)和m次对称群Sm,证明了Qn(D2tk)为秩不超过2t 1的基本2-群以及Qn(Sm)≌Z2. 相似文献
14.
特征标次数的重数与可解群结构 总被引:2,自引:1,他引:1
非线性不可约特征标次数的重数全部为1的有限群的分类是熟知的.对可解群,本文讨论更一般的,即非线性不可约特征标次数的重数都与群阶互素的有限群的纯群论性质.特别地,得到了非线性不可约特征标次数的重数均小于2p的奇阶群G的分类结果.这里p为群阶|G|的最小素因子. 相似文献
15.
In this paper, first we investigate the invariant rings of the finite groups G ≤ GL(n, F_q) generated by i-transvections and i-reflections with given invariant subspaces H over a finite field F_q in the modular case. Then we are concerned with general groups G_i(ω) and G_i(ω)~t named generalized transvection groups where ωis a k-th root of unity. By constructing quotient group and tensor, we calculate their invariant rings. In the end, we determine the properties of Cohen-Macaulay,Gorenstein, complete intersection, polynomial and Poincare series of these rings. 相似文献
16.
17.
51. IntroductionIt is quite clear that the ekistence of complements for some families of subgroups of agroup gives a lot ofinfor~ion about its structure. FOr instance, Hall[6] proved that a groupG is supersoluble with elementary abelian Sylow subgroups if and only if G is complemellted,that is, every subgroup of G is comPlemeded in G. The same anchor also proved that agroup is soluble if and only if every Sylow subgroup is complemellted (see [3;I,3.5]). Morerecelltly, Arad and Wardll] pro… 相似文献
18.
OD-CHARACTERIZATION OF ALMOST SIMPLE GROUPS RELATED TO U6(2) 总被引:1,自引:0,他引:1
Let G be a finite group and π(G) = { p 1 , p 2 , ··· , p k } be the set of the primes dividing the order of G. We define its prime graph Γ(G) as follows. The vertex set of this graph is π(G), and two distinct vertices p, q are joined by an edge if and only if pq ∈π e (G). In this case, we write p ~ q. For p ∈π(G), put deg(p) := |{ q ∈π(G) | p ~ q }| , which is called the degree of p. We also define D(G) := (deg(p 1 ), deg(p 2 ), ··· , deg(p k )), where p 1 < p 2 < ··· < p k , which is called the degree pattern of G. We say a group G is k-fold OD-characterizable if there exist exactly k non-isomorphic finite groups with the same order and degree pattern as G. Specially, a 1-fold OD-characterizable group is simply called an OD-characterizable group. Let L := U 6 (2). In this article, we classify all finite groups with the same order and degree pattern as an almost simple groups related to L. In fact, we prove that L and L.2 are OD-characterizable, L.3 is 3-fold OD-characterizable, and L.S 3 is 5-fold OD-characterizable. 相似文献
19.