von Neumann代数上的Lie可导映射

设A是不含交换中心投影的von Neumann代数,投影P∈A使得P=0, P=I.称可加映射δ:A→A在Ω∈A Lie可导,若δ([A,B])=[δ(A,δ(B)],■A,B∈A,AB=Ω.该文证明,若Ω∈A满足PΩ=Ω,则δ在ΩLie可导当且仅当存在导子τ:A→A和可加映射f:A→Z(A)使得δ(A)=τ(A)+f(A),■A∈A其中f([A,B)=0,■A,B∈A,AB=Ω.特别地,若A是因子von Neumann代数,Ω∈A满足ker(Ω)≠0或ran(Ω)≠H,则可加映射δ:A→A在ΩLie可导当且仅当δ有上述形式.     

含幂等元的环上的Jordan导子的刻画—在零点Jordan可导的可加映射

设A为包含非平凡幂等元且有单位的环(或代数),δ:A→A是可加(或线性)映射.称δ在零点Jordan可导,若δ(A)B+Aδ(B)+δ(B)A+Bδ(A)=0对任意满足AB+BA=0的A,B∈A成立.在一定条件下,证明了δ在零点Jordan可导当且仅当存在可加Jordan导子τ,使得δ(A)=τ(A)+δ(I)A对任意的A∈A成立.利用此结论,完全刻画了因子von Neumann代数上在零点Jordan可导的可加映射.此外,还刻画了一般von Neumann代数和C~*代数上在零点Jordan可导的有界线性映射.     

含幂等元的环上的Jordan导子的刻画-在零点Jordan可导的可加映射

设A为包含非平凡幂等元且有单位的环(或代数),δ:A→A是可加(或线性)映射.称δ在零点Jordan可导,若δ(A)B+Aδ(B)+δ(B)A+Bδ(A)=0对任意满足AB+BA=0的A,B∈A成立.在一定条件下,证明了δ在零点Jordan可导当且仪当存在可加Jordan导子τ,使得δ(A)=τ(A)+δ(I)A对任意的A∈A成立.利用此结论,完全刻画了因子von Neumann代数上在零点Jordan可导的可加映射.此外,还刻画了一般von Neumann代数和C*代数上在零点Jordan可导的有界线性映射.     

von Neumann代数上的零点(m,n)-可导映射

研究了von Neumann代数A上的零点(m,n)-可导映射,证明了:对任意固定的非零整数m,n且(m+n)(m-n)≠0,如果线性映射δ:A→A对任意满足AB=0的A,B∈A有mδ(AB)+nδ(BA)=mδ(A)B+mAδ(B)+nδ(B)A+nBδ(A),则δ是导子.     

因子von Neumann代数上的非线性Lie导子

设M是作用在维数大于2的复可分Hilbert空间,■上的因子von Neumann代数.证明了因子von Neumann代数M上的每一个非线性Lie导子具有形式A→ψ(A)+h(A)I,其中:.M→M是可加的导子,h:M→C是非线性映射且对所有A,B∈M,有h(AB-BA)=0.     

环与算子代数上中心化子的刻画

令R是含有单位元I和一非平凡幂等元P的环.假设Φ:R→R是可加映射,A,B∈R.本文证明了,在一些徽弱的假设下,下列表述成立:(1)Φ满足AB=P蕴涵Φ(A)B=AΦ(B)=Φ(P)当且仅当Φ是中心化子;(2)Φ满足AB+BA=P蕴涵Φ(A)B+Φ(B)A=Φ(P)(AΦ(B)+BΦ(A)=Φ(P))当且仅当圣是左(右)中心化子;(3)Φ满足AB+BA=0蕴涵Φ(A)B+Φ(B)A=0(AΦ(B)+BΦ(A)=0)当且仅当Φ是左(右)中心化子.作为应用,获得了三角代数、套代数、因子von Neumann代数等算子代数上中心化子的刻画.     

算子代数上的Lie可导映射

设A为有单位且包含一非平凡幂等元的环,M为A双模.称δ:A→M为Lie可导映射(无可加或连续假设),若δ([A,B])=[δ(A),B]+[A,δ(B)],(?)A,B∈A.在一定条件下该文证明了Lie可导映射δ具有形式δ(A)=τ(A)+f(A),其中r:A→M是可加导子,f是从A到M的中心且满足f([A,B])=0,(?)A,B∈A的映射.由此刻画了因子von Neuamnn代数和套代数上的Lie可导映射.     

von Neumann代数中套子代数上的Lie导子

本文对因子von Neumann代数中套子代数上的线性映射L:alg_Mβ→M满足L(AB—BA)=L(A)B-BL(A)+AL(B)-L(B)A( A,B∈alg_Mβ)进行了刻划,证明了存在线性函数h:alg_Mβ→C;且对任意A,B∈alg_Mβ,有h(AB—BA)=0和算子T∈M,使得对任意X∈alg_Mβ,都有L(X)=XT-TX+h(X)I.     

以仿正规算子为参数的初等算子的性质

若对x∈H,‖Tx‖~2≤‖T~2x‖‖x‖,则称T是仿正规算子.d_(AB)表示δ_(AB)或△_(AB),其中δ_(AB)和△_(AB)分别表示Banach空间B(H)上的广义导算子和初等算子,其定义为δ_(AB)X=AX-XB,△_(AB)X=AXB-X,X∈B(H).若A和B~*是仿正规算子,则可证d_(AB)是polaroid算子,f∈H(σ(d_(AB))),f(d_(AB))满足广义Weyl定理,f(d_(AB)~*)满足广义a-Weyl定理,其中H(σ(d_(AB)))表示在σ(d_(AB))的某邻域上解析的函数全体.     

三角代数上的一类非全局三重可导映射

设?=Tri(A,M,B)为三角代数,?={T∈?:T~2=0}且δ:?→?是一个映射(没有可加或线性假设).证明了:如果对任意A,B,C∈?且ABC∈?,有δ(ABC)=δ(A)BC+Aδ(B)C+ABδ(C),则δ是一个可加导子·作为应用,得到了上三角矩阵代数和套代数上此类非全局三重可导映射的具体形式.     

A characterization of generalized derivations of JSL algebras

Let AlgL be a J-subspace lattice algebra on a Banach space X and M be an operator in AlgL. We prove that if δ : AlgL → B(X) is a linear mapping satisfying δ(AB) = δ(A)B + Aδ(B)for all A, B ∈ AlgL with AMB = 0, then δ is a generalized derivation. This result can be applied to atomic Boolean subspace lattice algebras and pentagon subspace lattice algebras.     

因子von Neumann代数上的非线性混合ξ-Jordan三重可导映射

设A是一个的因子von Neumann代数.我们证明了每一个非线性混合ξ-Jordan（ξ≠0，-1）三重可导映射φ：A → A都是可加的*-导子，且对任意的A ∈ A，有φ（ξA）=ξφ（A）.     

三角环的全可导点

设A是一个结合环,G∈A.G称为A的一个全可导点,如果每一个在G点可导的可加映射φ:A→A(即对任意的S,T∈A有φ(ST)=φ(S)T+Sφ(T)且ST=G)都是一个导子.本文证明了一类三角环上的每个非零元都是全可导点.作为此结果的推论得到:一类域上的三角矩阵环的每个非零元都是全可导点.     

Strong skew commutativity preserving maps on rings with involution

Let R be a unital *-ring with the unit I.Assume that R contains a symmetric idempotent P which satisfies ARP = 0 implies A = 0 and AR(I-P) = 0 implies A = 0.In this paper,it is shown that a surjective map Φ:R→R is strong skew commutativity preserving(that is,satisfiesΦ(A)Φ(B)-Φ(B)Φ(A)~w= AB-BA~w for all A,B∈R) if and only if there exist a map f:R→Z_s(R)and an element Z∈Z_s(R) with Z~2=I such that Φ(A)=ZA +f(A) for all A∈R,where Z_s(R) is the symmetric center of R.As applications,the strong skew commutativity preserving maps on unital prime *-rings and von Neumann algebras with no central summands of type I_1 are characterized.     

素环上强保持2-Jordan乘积的映射

对于给定的正整数k≥1,环R上的元x,y的k-Jordan乘积定义为{x,y}_k={{x,y}_(k-1),y}_1,其中{x,y}_0=x,{x,y}_1=xy+yx.假设R是包含有单位元与一非平凡幂等元的素环.本文证明了R上的满射f满足{f(x),f(y)}2={x,y}_2对所有x,y∈R成立当且仅当存在λ∈l(R的可扩展中心)且λ~3=1,使得下列之一成立:(1)若R的特征不为2,则f(x)=λx对所有x∈R成立;(2)若R的特征为2,则f(x)=λx+μ(x)对所有x∈R成立,其中μ:R→l是一个映射.作为应用,得到了因子von Neumann代数上保持上述性质映射的结构.     

Equivalent characterization of centralizers on <Emphasis Type="Italic">B</Emphasis>(<Emphasis Type="Italic">H</Emphasis>)

Let H be a Hilbert space with dim H≥2 and Z∈ß(H) be an arbitrary but fixed operator. In this paper we show that an additive map Φ:ß(H) → ß(H) satisfies Φ(AB)=Φ(A)B=AΦ(B) for any A,B∈ß(H) with AB=Z if and only if Φ(AB)=Φ(A)B=AΦ(B), ∀A, B∈ß(H), that is, Φ is a centralizer. Similar results are obtained for Hilbert space nest algebras. In addition, we show that Φ(A²)=AΦ(A)=Φ(A)A for any A∈ ß(H) with AA²=0 if and only if Φ(A)=AΦ(I)=Φ(I)A, ∀A∈ß(H), and generalize main results in Linear Algebra and its Application, 450, 243-249 (2014) to infinite dimensional case. New equivalent characterization of centralizers on ß(H) is obtained.     

Characterizations of Centralizable Mappings on Algebras of Locally Measurable Operators

A linear mapping φ from an algebra A into its bimodule M is called a centralizable mapping at G ∈ A if φ(AB)=φ(A)B=Aφ(B) for each A and B in A with AB=G. In this paper, we prove that if M is a von Neumann algebra without direct summands of type I₁ and type II, A is a *-subalgebra with M ⊆ A ⊆ LS(M) and G is a fixed element in A, then every continuous (with respect to the local measure topology t(M)) centralizable mapping at G from A into M is a centralizer.     

Characterizations of ( m,n )-Jordan Derivations and ( m,n )-Jordan Derivable Mappings on Some Algebras

Let R be a ring, M be a R-bimodule and m, n be two fixed nonnegative integers with m + n = 0. An additive mapping δ from R into M is called an(m, n)-Jordan derivation if(m +n)δ(A~2) = 2 mAδ(A) + 2nδ(A)A for every A in R. In this paper, we prove that every(m, n)-Jordan derivation with m = n from a C*-algebra into its Banach bimodule is zero. An additive mappingδ from R into M is called a(m, n)-Jordan derivable mapping at W in R if(m + n)δ(AB + BA) =2mδ(A)B + 2 mδ(B)A + 2 nAδ(B) + 2 nBδ(A) for each A and B in R with AB = BA = W. We prove that if M is a unital A-bimodule with a left(right) separating set generated algebraically by all idempotents in A, then every(m, n)-Jordan derivable mapping at zero from A into M is identical with zero. We also show that if A and B are two unital algebras, M is a faithful unital(A, B)-bimodule and U = [A M N B] is a generalized matrix algebra, then every(m, n)-Jordan derivable mapping at zero from U into itself is equal to zero.