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1.
设OI_n是[n]上的保序严格部分一一变换半群.对任意1≤k≤n-1,研究半群OI_n(k)={α∈OI_n:(■x∈dom(α))x≤k■xα≤k}的秩,证明了半群OI_n(k)的秩为n+1.  相似文献   

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半群O_n(k)的秩   总被引:1,自引:1,他引:0  
设O_n是有限链[n]上的保序变换半群.对任意1≤k≤n-1,研究半群O_n(k)={α∈O_n:(x∈[n]x≤k→xα≤k}的秩和幂等元秩,证明了半群O_n(k)的秩为2n-3.进一步,得到了半群O_n(k)(2≤k≤n-1)的幂等元秩为n和半群O_n(1)的幂等元秩为n-1.  相似文献   

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设POn为Xn上的保序部分变换半群.对任意的2≤r≤n一1,考虑半群PO_(n,r)={α∈PO_n:Im(α)■[r]}([r]={1,2,…,r}),证明了PO_(n,r)的秩为Σn-1k=r(nk)((k-1)(r-1))+r-1.  相似文献   

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OI_n的理想K(n,r)的极大逆子半群   总被引:3,自引:0,他引:3  
Xn为n元有限集,OIn为Xn上的一切保序严格部分一一变换半群.记K(n,r)={α∈OIn∶|Tmα|≤r}(0≤r≤n-1)则K(n,r)(0≤r≤n-1)是OIn的理想.我们刻划了K(n,r)(1≤r≤n-1)的极大逆子半群.  相似文献   

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设Sing_n是[n]上的奇异变换半群,得了变换半群M_n={α∈Sing_n:max{|xα~(-1)}≥|im(α)|(x∈im{α))}的主因子的极大正则子半群的完全分类.  相似文献   

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设自然数n≥4,б_n是有限链[n]上的保序奇异变换半群.并通过分析秩为r的元素,获得了半群бφ_n={α∈б_n:■x∈im (α)■|xα~~(-1)|≥|im(α)|}的Green-关系、正则性和主因子的秩.  相似文献   

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设X_n={1,2,…,n}并赋予自然数序,OCK_n是X_n上的具有核连续的保序变换半群.将考虑OCK_n的理想OCK(n,r)={α∈OCK_n:|imα|≤r}(3≤r≤n-1),并得到了OCK(n,r)的极大子半群的完全分类.  相似文献   

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设自然数n≥4,CSPO_n是有限链[n]上的严格部分保序且压缩奇异变换半群.对任意的r(0≤r≤n-1),记N_P~*(n,r)={α∈CSPO_n:|Im(α)|≤r}为半群CSPO_n的双边星理想.通过对秩为r的元素和星格林关系的分析,分别获得了半群N_P~*(n,r)的极小生成集和秩.进一步确定了当0≤l≤r时,半群N_P~*(n,r)关于其星理想N_P~*(n,l)的相关秩.  相似文献   

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对于A∈C_(n×n),(?)A的k阶导算子δ_m~(k)(A)的相合数值域是指 R(δ_m~(k)(A))={E_k(x)|x∈D_m(A)},1≤k≤m≤n, 其中E_k(x)为C~m上的第k个初等对称函数。 D_m(A)={(diag U~TAU)(?)|U∈(?)_n(C)}。 本文的主要结论是:设A∈C_(n×n),s_1≥…≥s_n为(A+A~T)/2的奇异值,则当1相似文献   

10.
对于A∈C_(n×n),~n?A的k阶导算子δ_n~((k))(A)的正交数值域是指W~⊥(δ_n~((k))(A))={E_k(x)|x∈W_n(A)} ,1≤k≤n,其中E_k(x)为C~n上第k个初等对称函数,W_n(A)={digU~*AU|U∈u_n}。本文证明了当3≤k≤n时,δ_n~((k))(A)为厄米特算子的充要条件是W~⊥(δ_n~((k))(A))?R。  相似文献   

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We study a class of self-similar processes with stationary increments belonging to higher order Wiener chaoses which are similar to Hermite processes. We obtain an almost sure wavelet-like expansion of these processes. This allows us to compute the pointwise and local Hölder regularity of sample paths and to analyse their behaviour at infinity. We also provide some results on the Hausdorff dimension of the range and graphs of multidimensional anisotropic self-similar processes with stationary increments defined by multiple Wiener–Itô integrals.  相似文献   

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It is considered the class of Riemann surfaces with dimT1 = 0, where T1 is a subclass of exact harmonic forms which is one of the factors in the orthogonal decomposition of the spaceΩH of harmonic forms of the surface, namely The surfaces in the class OHD and the class of planar surfaces satisfy dimT1 = 0. A.Pfluger posed the question whether there might exist other surfaces outside those two classes. Here it is shown that in the case of finite genus g, we should look for a surface S with dimT1 = 0 among the surfaces of the form Sg\K , where Sg is a closed surface of genus g and K a compact set of positive harmonic measure with perfect components and very irregular boundary.  相似文献   

14.
As early as in 1990, Professor Sun Yongsheng, suggested his students at Beijing Normal University to consider research problems on the unit sphere. Under his guidance and encouragement his students started the research on spherical harmonic analysis and approximation. In this paper, we incompletely introduce the main achievements in this area obtained by our group and relative researchers during recent 5 years (2001-2005). The main topics are: convergence of Cesaro summability, a.e. and strong summability of Fourier-Laplace series; smoothness and K-functionals; Kolmogorov and linear widths.  相似文献   

15.
Schr(o)dinger operator is a central subject in the mathematical study of quantum mechanics.Consider the Schrodinger operator H = -△ V on R, where △ = d2/dx2 and the potential function V is real valued. In Fourier analysis, it is well-known that a square integrable function admits an expansion with exponentials as eigenfunctions of -△. A natural conjecture is that an L2 function admits a similar expansion in terms of "eigenfunctions" of H, a perturbation of the Laplacian (see [7], Ch. Ⅺ and the notes), under certain condition on V.  相似文献   

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<正>Aims and Scope Journal of Mathematical Research with Applications(JMRA),formerly Journal of Mathematical Research and Exposition(JMRE)created in 1981,is one of the transactions of China Society for Industrial and Applied Mathematics,and is a bimonthly journal.JMRA is dedicated to publishing first-rate original research papers in all areas of mathematics with applications,and making research findings available to a wide scientific world,as JMRE has for many years.In line with the name change,the new scope of Journal of Mathematical Research with Applications will not include the articles on mathematical methodology and mathematical philosophy.Copyright Information  相似文献   

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<正>Erratum to:Science in China Series A:Mathematics,April 2009 Vol.52 No.4:617–630doi:10.1007/s11425-009-0038-2There is a mistake in the proof of[1,Lemma 2.2],which occurs in 4-th line at[1,p.619],  相似文献   

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