Characterizations of Jordan derivations on triangular rings: additive maps Jordan derivable at idempotents.

An, Runling; Hou, Jinchuan

Displaying similar documents to “Characterizations of Jordan derivations on triangular rings: additive maps Jordan derivable at idempotents.”

Additivity of maps on triangular algebras.

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Jordan left derivations in full and upper triangular matrix rings.

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On generalized Jordan derivations of Lie triple systems

Abbas Najati (2010)

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Under some conditions we prove that every generalized Jordan triple derivation on a Lie triple system is a generalized derivation. Specially, we conclude that every Jordan triple $θ$ -derivation on a Lie triple system is a $θ$ -derivation.

The Jordan structure of CSL algebras

Fangyan Lu (2009)

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We show that every Jordan isomorphism between CSL algebras is the sum of an isomorphism and an anti-isomorphism. Also we show that each Jordan derivation of a CSL algebra is a derivation.

On Jordan mappings of inverse semirings

Sara Shafiq, Muhammad Aslam (2017)

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In this paper, the notions of Jordan homomorphism and Jordan derivation of inverse semirings are introduced. A few results of Herstein and Brešar on Jordan homomorphisms and Jordan derivations of rings are generalized in the setting of inverse semirings.

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Jordan *-derivation pairs on standard operator algebras and related results

Dilian Yang (2005)

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Motivated by Problem 2 in [2], Jordan *-derivation pairs and n-Jordan *-mappings are studied. From the results on these mappings, an affirmative answer to Problem 2 in [2] is given when E = F in (1) or when 𝓐 is unital. For the general case, we prove that every Jordan *-derivation pair is automatically real-linear. Furthermore, a characterization of a non-normal prime *-ring under some mild assumptions and a representation theorem for quasi-quadratic functionals are provided. ...

Distinguishing Jordan polynomials by means of a single Jordan-algebra norm

A. Moreno Galindo (1997)

Studia Mathematica

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For = ℝ or ℂ we exhibit a Jordan-algebra norm ⎮·⎮ on the simple associative algebra $M_{\infty} ()$ with the property that Jordan polynomials over are precisely those associative polynomials over which act ⎮·⎮-continuously on $M_{\infty} ()$ . This analytic determination of Jordan polynomials improves the one recently obtained in [5].