Dr Don Barnes

F07 - Carslaw Building
The University of Sydney

Selected publications

Download citations: PDF RTF Endnote

Journals

  • Barnes, D. (2017). Faithful completely reducible representations of modular Lie algebras. Communications in Algebra, 45(6), 2629-2632. [More Information]
  • Barnes, D. (2015). Conditions for a Schunck Class to be a Formation. Bulletin of the Australian Mathematical Society, 91(1), 69-75. [More Information]
  • Barnes, D. (2014). Character clusters for Lie algebra modules over a field of nonzero characteristic. Bulletin of the Australian Mathematical Society, 89(2), 234-242. [More Information]
  • Barnes, D. (2013). Faithful Representations of Leibniz Algebras. Proceedings of the American Mathematical Society, 141(9), 2991-2995. [More Information]
  • Barnes, D. (2013). On F-hypercentral and F-hypereccentric modules for finite soluble groups. Communications in Algebra, 41, 1872-1877. [More Information]
  • Barnes, D. (2013). Schunck Classes of Soluble Leibniz Algebras. Communications in Algebra, 41(11), 4046-4065. [More Information]
  • Barnes, D. (2012). Chief factors covered by projectors of soluble Leibniz algebras. Bulletin of the Australian Mathematical Society, 86(3), 353-355. [More Information]
  • Barnes, D. (2012). Lattices of Subalgebras of Leibniz Algebras. Communications in Algebra, 40(11), 4330-4335. [More Information]
  • Barnes, D. (2012). On Engel's Theorem for Leibniz Algebras. Communications in Algebra, 40(4), 1388-1389. [More Information]
  • Barnes, D. (2012). On Levi's theorem for Leibniz algebras. Bulletin of the Australian Mathematical Society, 86(2), 184-185. [More Information]
  • Barnes, D. (2012). On locally defined formations of soluble Lie and Leibniz algebras. Bulletin of the Australian Mathematical Society, 86(2), 322-326. [More Information]
  • Barnes, D. (2011). Some theorems on Leibniz algebras. Communications in Algebra, 39(7), 2463-2472. [More Information]
  • Barnes, D. (2009). Lie algebra ξ-normalizers are intravariant. Communications in Algebra, 37(4), 1170-1171. [More Information]
  • Barnes, D. (2008). Engel Subalgebras of n-Lie Algebras. Acta Mathematica Sinica (English Series), 24(1), 159-166. [More Information]
  • Barnes, D. (2007). On Sikora's spectral sequences. Journal of Knot Theory and Its Ramifications, 16(7), 833-867. [More Information]
  • Barnes, D. (2005). ADO-IWASAWA extras. Journal of the Australian Mathematical Society, 78, 407-421. [More Information]
  • Barnes, D. (2003). On F-hyperexcentric modules for lie algebras. Journal of the Australian Mathematical Society, 74, 235-238.
  • Barnes, D. (2003). On the spectral sequence constructors of Guichardet and Stefan. Transactions of the American Mathematical Society, 11, 2755-2769. [More Information]
  • Barnes, D., Groves, D. (2003). The Wielandt subalgebra of a lie algebra. Journal of the Australian Mathematical Society, 74, 313-330.
  • Barnes, D. (2001). On the length of the spectral sequence of a Lie algebra extension. Proceedings of the American Mathematical Society, 129, No. 2, 347-350.

2017

  • Barnes, D. (2017). Faithful completely reducible representations of modular Lie algebras. Communications in Algebra, 45(6), 2629-2632. [More Information]

2015

  • Barnes, D. (2015). Conditions for a Schunck Class to be a Formation. Bulletin of the Australian Mathematical Society, 91(1), 69-75. [More Information]

2014

  • Barnes, D. (2014). Character clusters for Lie algebra modules over a field of nonzero characteristic. Bulletin of the Australian Mathematical Society, 89(2), 234-242. [More Information]

2013

  • Barnes, D. (2013). Faithful Representations of Leibniz Algebras. Proceedings of the American Mathematical Society, 141(9), 2991-2995. [More Information]
  • Barnes, D. (2013). On F-hypercentral and F-hypereccentric modules for finite soluble groups. Communications in Algebra, 41, 1872-1877. [More Information]
  • Barnes, D. (2013). Schunck Classes of Soluble Leibniz Algebras. Communications in Algebra, 41(11), 4046-4065. [More Information]

2012

  • Barnes, D. (2012). Chief factors covered by projectors of soluble Leibniz algebras. Bulletin of the Australian Mathematical Society, 86(3), 353-355. [More Information]
  • Barnes, D. (2012). Lattices of Subalgebras of Leibniz Algebras. Communications in Algebra, 40(11), 4330-4335. [More Information]
  • Barnes, D. (2012). On Engel's Theorem for Leibniz Algebras. Communications in Algebra, 40(4), 1388-1389. [More Information]
  • Barnes, D. (2012). On Levi's theorem for Leibniz algebras. Bulletin of the Australian Mathematical Society, 86(2), 184-185. [More Information]
  • Barnes, D. (2012). On locally defined formations of soluble Lie and Leibniz algebras. Bulletin of the Australian Mathematical Society, 86(2), 322-326. [More Information]

2011

  • Barnes, D. (2011). Some theorems on Leibniz algebras. Communications in Algebra, 39(7), 2463-2472. [More Information]

2009

  • Barnes, D. (2009). Lie algebra ξ-normalizers are intravariant. Communications in Algebra, 37(4), 1170-1171. [More Information]

2008

  • Barnes, D. (2008). Engel Subalgebras of n-Lie Algebras. Acta Mathematica Sinica (English Series), 24(1), 159-166. [More Information]

2007

  • Barnes, D. (2007). On Sikora's spectral sequences. Journal of Knot Theory and Its Ramifications, 16(7), 833-867. [More Information]

2005

  • Barnes, D. (2005). ADO-IWASAWA extras. Journal of the Australian Mathematical Society, 78, 407-421. [More Information]

2003

  • Barnes, D. (2003). On F-hyperexcentric modules for lie algebras. Journal of the Australian Mathematical Society, 74, 235-238.
  • Barnes, D. (2003). On the spectral sequence constructors of Guichardet and Stefan. Transactions of the American Mathematical Society, 11, 2755-2769. [More Information]
  • Barnes, D., Groves, D. (2003). The Wielandt subalgebra of a lie algebra. Journal of the Australian Mathematical Society, 74, 313-330.

2001

  • Barnes, D. (2001). On the length of the spectral sequence of a Lie algebra extension. Proceedings of the American Mathematical Society, 129, No. 2, 347-350.

To update your profile click here. For support on your academic profile contact .