Given H a Hilbert space and B(H) the algebra of
bounded linear operator in H, let δAB denote the generalized
derivation defined by A and B. The main objective of this article
is to study Weyl type theorems for generalized derivation for (A,B)
satisfying a couple of Fuglede.
[1] F.F. Bonsall and J. Duncan, Numerical ranges II, Lond. Math. Soc.
Lecture Notes series 10 (1973).
[2] J. Anderson, On normal derivations, Proc. mer. Math. Soc. 38 (1973),
136–140.
[3] B.P. Duggal, Range-Kernel orthogoalnality of Derivations, Linear Alg.
Appl. 304 (2000), 103–108.
[4] D. Keˇcki´c, Orthogonality of the range and the kernel of some elementary
operators, Proc. mer. Math. Soc. 128 (2000), 3369–3377.
[5] A. Turnˇsek, Generalized Anderson’s inequality, J. Math. An. Appl. 263
(2001), 121–134.
[6] A. Turnˇsek, Orthogonality in Cp classes, Mh. Math. 132 (2001), 349–354.
[7] K. Takahashi, On the converse of Putnam-Fuglede theorem, Acta Sci.
Math.(Szeged) 43(1981), 123–125.
[8] M. O. Otieno, On intertwining and w-hyponormal operators, Opuscula
Math. 25 (2)(2005), 275–285.
[9] B. P. Duggal, Weyl’s theorem for a generalized derivation and an
elementary operator, Mat. Vesnik 54 (2002), 71–81.
[10] K.B. Laursen,M.M.Neumann, An introduction to local spectral theory,
Lond. Math. Soc.Monographs (NS), Oxford University Press, 2000.
[11] M.R. Embry, M. Rosenblum, Spectra, tensor products, and linear
operator equations, Pacific J. Math. 53 (1974) 95-107.
[12] L.A. Coburn, Weyl’s theorem for non-normal operators, Michigan. Math.
J. 13 (1966), 285–288.
[13] V. Rakoˇcevi´c, Operators obeying a-Weyl’s theorem, Rev. Roumaine
Math. Pures Appl. 10 (1986), 915–919.
[14] M. Mbekhta, G´en´eralisation de la d´ecomposition de Kato aux op´erateurs
paranormaux et spectraux, Glasg. Math. J. 29 (1987), 159175.
[15] P. Aiena, Fredholm and Local Spectral Theory, with Applications to
Multipliers, Kluwer Academic Publishers, 2004.
[1] F.F. Bonsall and J. Duncan, Numerical ranges II, Lond. Math. Soc.
Lecture Notes series 10 (1973).
[2] J. Anderson, On normal derivations, Proc. mer. Math. Soc. 38 (1973),
136–140.
[3] B.P. Duggal, Range-Kernel orthogoalnality of Derivations, Linear Alg.
Appl. 304 (2000), 103–108.
[4] D. Keˇcki´c, Orthogonality of the range and the kernel of some elementary
operators, Proc. mer. Math. Soc. 128 (2000), 3369–3377.
[5] A. Turnˇsek, Generalized Anderson’s inequality, J. Math. An. Appl. 263
(2001), 121–134.
[6] A. Turnˇsek, Orthogonality in Cp classes, Mh. Math. 132 (2001), 349–354.
[7] K. Takahashi, On the converse of Putnam-Fuglede theorem, Acta Sci.
Math.(Szeged) 43(1981), 123–125.
[8] M. O. Otieno, On intertwining and w-hyponormal operators, Opuscula
Math. 25 (2)(2005), 275–285.
[9] B. P. Duggal, Weyl’s theorem for a generalized derivation and an
elementary operator, Mat. Vesnik 54 (2002), 71–81.
[10] K.B. Laursen,M.M.Neumann, An introduction to local spectral theory,
Lond. Math. Soc.Monographs (NS), Oxford University Press, 2000.
[11] M.R. Embry, M. Rosenblum, Spectra, tensor products, and linear
operator equations, Pacific J. Math. 53 (1974) 95-107.
[12] L.A. Coburn, Weyl’s theorem for non-normal operators, Michigan. Math.
J. 13 (1966), 285–288.
[13] V. Rakoˇcevi´c, Operators obeying a-Weyl’s theorem, Rev. Roumaine
Math. Pures Appl. 10 (1986), 915–919.
[14] M. Mbekhta, G´en´eralisation de la d´ecomposition de Kato aux op´erateurs
paranormaux et spectraux, Glasg. Math. J. 29 (1987), 159175.
[15] P. Aiena, Fredholm and Local Spectral Theory, with Applications to
Multipliers, Kluwer Academic Publishers, 2004.
@article{"International Journal of Engineering, Mathematical and Physical Sciences:79859", author = "M. H. M. Rashid", title = "Weyl Type Theorem and the Fuglede Property", abstract = "Given H a Hilbert space and B(H) the algebra of
bounded linear operator in H, let δAB denote the generalized
derivation defined by A and B. The main objective of this article
is to study Weyl type theorems for generalized derivation for (A,B)
satisfying a couple of Fuglede.", keywords = "Fuglede Property, Weyl’s theorem, generalized
derivation, Aluthge Transformation.", volume = "14", number = "9", pages = "107-4", }
