Let A be a standard operator algebra on a Banach space of dimension 〉 1 and B be an arbitrary algebra over Q the field of rational numbers. Suppose that M : A → B and M^* : B → A are surjective maps such that {M...Let A be a standard operator algebra on a Banach space of dimension 〉 1 and B be an arbitrary algebra over Q the field of rational numbers. Suppose that M : A → B and M^* : B → A are surjective maps such that {M(r(aM^*(x)+M^*(x)a))=r(M(a)x+xM(a)), M^*(r(M(a)x+xM(a)))=r(aM^*(x)+M^*(x)a) for all a ∈ A, x ∈ B, where r is a fixed nonzero rational number. Then both M and M^* are additive.展开更多
In this paper, the structure of Jordan higher derivable maps on triangular algebras by commutative zero products is given. As an application, the form of Jordan higher derivable maps of nest algebras by commutative ze...In this paper, the structure of Jordan higher derivable maps on triangular algebras by commutative zero products is given. As an application, the form of Jordan higher derivable maps of nest algebras by commutative zero products is obtained.展开更多
In this paper,we show that every injective Jordan semi-triple multiplicative map on the Hermitian matrices must be surjective,and hence is a Jordan ring isomorphism.
Let A be a unital algebra and M be a unital .A-bimodule. A linear map δ : A →M is said to be Jordan derivable at a nontrivial idempotent P ∈A if δ(A) o B + A o δ(B) =δ(A o B) for any A,B ∈ .4 with A o B...Let A be a unital algebra and M be a unital .A-bimodule. A linear map δ : A →M is said to be Jordan derivable at a nontrivial idempotent P ∈A if δ(A) o B + A o δ(B) =δ(A o B) for any A,B ∈ .4 with A o B = P, here A o B = AB + BA is the usual Jordan product. In this article, we show that if ,A = AlgAN is a Hilbert space nest Mgebra and M = B(H), or A =M= B(X), then, a linear mapδ: A→M is Jordan derivable at a nontrivial projection P ∈ N or an arbitrary but fixed nontrivial idempotent P∈ B(X) if and only if it is a derivation. New equivalent characterization of derivations on these operator algebras was obtained.展开更多
基金Supported by the National Natural Science Foundation of China (Grant Nos.10675086 10971117)the Natural Science Foundation of Shandong Province (Grant No.Y2006A03)
文摘Let A be a standard operator algebra on a Banach space of dimension 〉 1 and B be an arbitrary algebra over Q the field of rational numbers. Suppose that M : A → B and M^* : B → A are surjective maps such that {M(r(aM^*(x)+M^*(x)a))=r(M(a)x+xM(a)), M^*(r(M(a)x+xM(a)))=r(aM^*(x)+M^*(x)a) for all a ∈ A, x ∈ B, where r is a fixed nonzero rational number. Then both M and M^* are additive.
基金Supported by National Natural Science Foundation of China(Grant Nos.11471199 and 11371233)Research Fund for the Doctoral Program of Higher Education of China(Grant No.20110202110002)the Innovation Funds of Graduate Programs of Shaanxi Normal University(Grant No.2015CXB007)
文摘In this paper, the structure of Jordan higher derivable maps on triangular algebras by commutative zero products is given. As an application, the form of Jordan higher derivable maps of nest algebras by commutative zero products is obtained.
基金Supported by the National Natural Science Foundation of China (Grant Nos.11001194 10771157)the Natural Science Foundation of Shanxi Province (Grant No.2009021002)
文摘In this paper,we show that every injective Jordan semi-triple multiplicative map on the Hermitian matrices must be surjective,and hence is a Jordan ring isomorphism.
基金Supported by National Natural Foundation of China(11001194)Provincial International Cooperation Project of Shanxi(2014081027-2)
文摘Let A be a unital algebra and M be a unital .A-bimodule. A linear map δ : A →M is said to be Jordan derivable at a nontrivial idempotent P ∈A if δ(A) o B + A o δ(B) =δ(A o B) for any A,B ∈ .4 with A o B = P, here A o B = AB + BA is the usual Jordan product. In this article, we show that if ,A = AlgAN is a Hilbert space nest Mgebra and M = B(H), or A =M= B(X), then, a linear mapδ: A→M is Jordan derivable at a nontrivial projection P ∈ N or an arbitrary but fixed nontrivial idempotent P∈ B(X) if and only if it is a derivation. New equivalent characterization of derivations on these operator algebras was obtained.
