A bounded linear operator T on a complex Hilbert space H is called(n, k)-quasi-*-paranormal if ║T;(T;x) ║;║ T;x║;≥║ T*(T;x)║ for all x ∈ H,where n, k are nonnegative integers. This class of operators has...A bounded linear operator T on a complex Hilbert space H is called(n, k)-quasi-*-paranormal if ║T;(T;x) ║;║ T;x║;≥║ T*(T;x)║ for all x ∈ H,where n, k are nonnegative integers. This class of operators has many interesting properties and contains the classes of n-*-paranormal operators and quasi-*-paranormal operators. The aim of this note is to show that every Riesz idempotent E;with respect to a non-zero isolated spectral point λ of an(n, k)-quasi-*-paranormal operator T is self-adjoint and satisfies ran E;= ker(T- λ) = ker(T- λ)*.展开更多
An operator T is called k-quasi-*-A(n) operator, if T^(*k)|T^(1+n)|^(2/(1+n))T^k ≥T^(*k)|T~* |~2T^k , k ∈ Z, which is a generalization of quasi-*-A(n) operator. In this paper we prove some properties of k-quasi-*-A(...An operator T is called k-quasi-*-A(n) operator, if T^(*k)|T^(1+n)|^(2/(1+n))T^k ≥T^(*k)|T~* |~2T^k , k ∈ Z, which is a generalization of quasi-*-A(n) operator. In this paper we prove some properties of k-quasi-*-A(n) operator, such as, if T is a k-quasi-*-A(n) operator and N(T )■N(T~* ), then its point spectrum and joint point spectrum are identical. Using these results, we also prove that if T is a k-quasi-*-A(n) operator and N(T )■N(T ), then the spectral mapping theorem holds for the Weyl spectrum and for the essential approximate point spectrum.展开更多
基金supported by National Natural Science Foundation of China(11301077,11301078,11401097,11501108)Natural Science Foundation of Fujian Province(2015J01579,2016J05001)
文摘A bounded linear operator T on a complex Hilbert space H is called(n, k)-quasi-*-paranormal if ║T;(T;x) ║;║ T;x║;≥║ T*(T;x)║ for all x ∈ H,where n, k are nonnegative integers. This class of operators has many interesting properties and contains the classes of n-*-paranormal operators and quasi-*-paranormal operators. The aim of this note is to show that every Riesz idempotent E;with respect to a non-zero isolated spectral point λ of an(n, k)-quasi-*-paranormal operator T is self-adjoint and satisfies ran E;= ker(T- λ) = ker(T- λ)*.
基金Supported by the Natural Science Foundation of the Department of Education of Henan Province(12B110025, 102300410012)
文摘An operator T is called k-quasi-*-A(n) operator, if T^(*k)|T^(1+n)|^(2/(1+n))T^k ≥T^(*k)|T~* |~2T^k , k ∈ Z, which is a generalization of quasi-*-A(n) operator. In this paper we prove some properties of k-quasi-*-A(n) operator, such as, if T is a k-quasi-*-A(n) operator and N(T )■N(T~* ), then its point spectrum and joint point spectrum are identical. Using these results, we also prove that if T is a k-quasi-*-A(n) operator and N(T )■N(T ), then the spectral mapping theorem holds for the Weyl spectrum and for the essential approximate point spectrum.
