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Multiplicative Lie-type derivations on standard operator algebras

  • Mohammad Ashraf , Md Shamim Akhter , Mohammad Afajal Ansari and Mohd Shuaib Akhtar EMAIL logo
Published/Copyright: June 1, 2023
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Georgian Mathematical Journal
From the journal Georgian Mathematical Journal Volume 30 Issue 5

Abstract

Let 𝔄 be a standard operator algebra on a complex Banach space 𝔛 , dim ⁑ 𝔛 > 1 , and p n ⁒ ( T 1 , T 2 , … , T n ) the ( n - 1 ) th-commutator of elements T 1 , T 2 , … , T n ∈ 𝔄 . Then every map ΞΎ : 𝔄 β†’ 𝔄 (not necessarily linear) satisfying ΞΎ ⁒ ( p n ⁒ ( T 1 , T 2 , … , T n ) ) = βˆ‘ i = 1 n p n ⁒ ( T 1 , T 2 , … , T i - 1 , ΞΎ ⁒ ( T i ) , T i + 1 , … , T n ) for all T 1 , T 2 , … , T n ∈ 𝔄 is of the form ΞΎ = Ξ© + Ξ“ , where Ξ© : 𝔄 β†’ 𝔄 is an additive derivation and Ξ“ : 𝔄 β†’ β„‚ ⁒ I is a map that vanishes at each ( n - 1 ) th-commutator p n ⁒ ( T 1 , T 2 , … , T n ) for all T 1 , T 2 , … , T n ∈ 𝔄 . In addition, if the map ΞΎ is linear and satisfies the above relation, then there exist an operator S ∈ 𝔄 and a linear map Ξ“ : 𝔄 β†’ β„‚ ⁒ I satisfying Ξ“ ⁒ ( p n ⁒ ( T 1 , T 2 , … , T n ) ) = 0 for all T 1 , T 2 , … , T n ∈ 𝔄 , such that ΞΎ ⁒ ( T ) = [ T , S ] + Ξ“ ⁒ ( T ) for all T ∈ 𝔄 .

Keywords: Additive derivation; Lie derivation; Lie-type derivation; standard operator algebra
MSC 2020: 16W25; 47B47; 47L10

Funding statement: This research is partially supported by a research grant from NBHM (No. 02011/5/2020 NBHM(R.P.) R&D II/6243) and DST (No. DST/INSPIRE/03/2017/IF170834).

Acknowledgements

The authors would like to express their sincere thanks to the anonymous referee for careful reading of the article and useful suggestions.

References

[1] M. A. Ansari, M. Ashraf and M. S. Akhtar, Lie triple derivations on trivial extension algebras, Bull. Iranian Math. Soc. 48 (2022), no. 4, 1763–1774. 10.1007/s41980-021-00618-3Search in Google Scholar

[2] M. Ashraf and M. S. Akhtar, Characterizations of Lie triple derivations on generalized matrix algebras, Comm. Algebra 48 (2020), no. 9, 3651–3660. 10.1080/00927872.2020.1743299Search in Google Scholar

[3] M. Ashraf, M. S. Akhtar and M. A. Ansari, Generalized Lie (Jordan) triple derivations on arbitrary triangular algebras, Bull. Malays. Math. Sci. Soc. 44 (2021), no. 6, 3767–3776. 10.1007/s40840-021-01148-1Search in Google Scholar

[4] M. Ashraf and A. Jabeen, Nonlinear generalized Lie triple derivation on triangular algebras, Comm. Algebra 45 (2017), no. 10, 4380–4395. 10.1080/00927872.2016.1264586Search in Google Scholar

[5] Z. Bai and S. Du, The structure of nonlinear Lie derivation on von Neumann algebras, Linear Algebra Appl. 436 (2012), no. 7, 2701–2708. 10.1016/j.laa.2011.11.009Search in Google Scholar

[6] D. Benkovič, Lie triple derivations of unital algebras with idempotents, Linear Multilinear Algebra 63 (2015), no. 1, 141–165. 10.1080/03081087.2013.851200Search in Google Scholar

[7] D. Benkovič, Generalized Lie derivations of unital algebras with idempotents, Oper. Matrices 12 (2018), no. 2, 357–367. 10.7153/oam-2018-12-23Search in Google Scholar

[8] D. Benkovič, Generalized Lie n-derivations of triangular algebras, Comm. Algebra 47 (2019), no. 12, 5294–5302. 10.1080/00927872.2019.1617875Search in Google Scholar

[9] D. Benkovič and D. Eremita, Multiplicative Lie n-derivations of triangular rings, Linear Algebra Appl. 436 (2012), no. 11, 4223–4240. 10.1016/j.laa.2012.01.022Search in Google Scholar

[10] L. Chen and J. Zhang, Nonlinear Lie derivations on upper triangular matrices, Linear Multilinear Algebra 56 (2008), no. 6, 725–730. 10.1080/03081080701688119Search in Google Scholar

[11] P. R. Chernoff, Representations, automorphisms, and derivations of some operator algebras, J. Funct. Anal. 12 (1973), 275–289. 10.1016/0022-1236(73)90080-3Search in Google Scholar

[12] W.-S. Cheung, Lie derivations of triangular algebras, Linear Multilinear Algebra 51 (2003), no. 3, 299–310. 10.1080/0308108031000096993Search in Google Scholar

[13] Y. Du and Y. Wang, Lie derivations of generalized matrix algebras, Linear Algebra Appl. 437 (2012), no. 11, 2719–2726. 10.1016/j.laa.2012.06.013Search in Google Scholar

[14] A. FoΕ‘ner, F. Wei and Z. Xiao, Nonlinear Lie-type derivations of von Neumann algebras and related topics, Colloq. Math. 132 (2013), no. 1, 53–71. 10.4064/cm132-1-5Search in Google Scholar

[15] P. R. Halmos, A Hilbert Space Problem Book, 2nd ed., Encyclopedia Math. Appl. 17, Springer, New York, 1982. 10.1007/978-1-4684-9330-6_4Search in Google Scholar

[16] P. Ji, R. Liu and Y. Zhao, Nonlinear Lie triple derivations of triangular algebras, Linear Multilinear Algebra 60 (2012), no. 10, 1155–1164. 10.1080/03081087.2011.652109Search in Google Scholar

[17] W. Jing and F. Lu, Lie derivable mappings on prime rings, Linear Multilinear Algebra 60 (2012), no. 2, 167–180. 10.1080/03081087.2011.576343Search in Google Scholar

[18] W. Lin, Nonlinear generalized Lie n-derivations on triangular algebras, Comm. Algebra 46 (2018), no. 6, 2368–2383. 10.1080/00927872.2017.1383999Search in Google Scholar

[19] F. Lu, Additivity of Jordan maps on standard operator algebras, Linear Algebra Appl. 357 (2002), 123–131. 10.1016/S0024-3795(02)00367-1Search in Google Scholar

[20] F. Lu and B. Liu, Lie derivable maps on B ⁒ ( X ) , J. Math. Anal. Appl. 372 (2010), no. 2, 369–376. 10.1016/j.jmaa.2010.07.002Search in Google Scholar

[21] W. S. Martindale, III, Lie derivations of primitive rings, Michigan Math. J. 11 (1964), 183–187. 10.1307/mmj/1028999091Search in Google Scholar

[22] Y. Wang, Lie n-derivations of unital algebras with idempotents, Linear Algebra Appl. 458 (2014), 512–525. 10.1016/j.laa.2014.06.029Search in Google Scholar

[23] Y. Wang and Y. Wang, Multiplicative Lie n-derivations of generalized matrix algebras, Linear Algebra Appl. 438 (2013), no. 5, 2599–2616. 10.1016/j.laa.2012.10.052Search in Google Scholar

[24] B. A. Wani, Multiplicative Lie triple derivations on standard operator algebras, Commun. Math. 29 (2021), no. 3, 357–369. 10.2478/cm-2021-0012Search in Google Scholar

[25] Z. Xiao and F. Wei, Lie triple derivations of triangular algebras, Linear Algebra Appl. 437 (2012), no. 5, 1234–1249. 10.1016/j.laa.2012.04.015Search in Google Scholar

[26] W. Yu and J. Zhang, Nonlinear Lie derivations of triangular algebras, Linear Algebra Appl. 432 (2010), no. 11, 2953–2960. 10.1016/j.laa.2009.12.042Search in Google Scholar

[27] W. Yu and J. Zhang, Nonlinear βˆ— -Lie derivations on factor von Neumann algebras, Linear Algebra Appl. 437 (2012), no. 8, 1979–1991. 10.1016/j.laa.2012.05.032Search in Google Scholar
Received: 2022-06-02
Revised: 2022-10-12
Accepted: 2022-11-01
Published Online: 2023-06-01
Published in Print: 2023-10-01

Β© 2023 Walter de Gruyter GmbH, Berlin/Boston

Articles in the same Issue

  1. Frontmatter
  2. On the numerical solvability of the initial problem with weight for ordinary linear differential systems with singularities
  3. Multiplicative Lie-type derivations on standard operator algebras
  4. Numerical radius inequalities and estimation of zeros of polynomials
  5. Convolution equations on the Lie group G = (-1,1)
  6. Positive solutions for a fourth-order p-Laplacian boundary value problem
  7. Existence and asymptotic behavior of strictly convex solutions for singular k-Hessian equations with nonlinear gradient terms
  8. Characterization of Jordan two-sided centralizers and related maps on triangular rings
  9. Convergence and integrability of rational and double rational trigonometric series with coefficients of bounded variation of higher order
  10. Weak and strong type inequalities criteria for fractional maximal functions and fractional integrals associated with Gegenbauer differential operator
  11. Generating sets of F/R' Leibniz algebras
  12. New results of uncertain integrals and applications
  13. Multilinear commutators of multilinear strongly singular integral operators with generalized kernels
https://doi.org/10.1515/gmj-2023-2030
Keywords for this article
Additive derivation; Lie derivation; Lie-type derivation; standard operator algebra

Articles in the same Issue

  1. Frontmatter
  2. On the numerical solvability of the initial problem with weight for ordinary linear differential systems with singularities
  3. Multiplicative Lie-type derivations on standard operator algebras
  4. Numerical radius inequalities and estimation of zeros of polynomials
  5. Convolution equations on the Lie group G = (-1,1)
  6. Positive solutions for a fourth-order p-Laplacian boundary value problem
  7. Existence and asymptotic behavior of strictly convex solutions for singular k-Hessian equations with nonlinear gradient terms
  8. Characterization of Jordan two-sided centralizers and related maps on triangular rings
  9. Convergence and integrability of rational and double rational trigonometric series with coefficients of bounded variation of higher order
  10. Weak and strong type inequalities criteria for fractional maximal functions and fractional integrals associated with Gegenbauer differential operator
  11. Generating sets of F/R' Leibniz algebras
  12. New results of uncertain integrals and applications
  13. Multilinear commutators of multilinear strongly singular integral operators with generalized kernels
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