Pairs of matrices, one of which commutes with their commutator.
Bourgeois, Gerald (2011)
ELA. The Electronic Journal of Linear Algebra [electronic only]
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Displaying similar documents to “Products of commuting nilpotent operators.”
Pairs of matrices, one of which commutes with their commutator.
Zero-nonzero patterns for nilpotent matrices over finite fields.
Vander Meulen, Kevin N., Van Tuyl, Adam (2009)
ELA. The Electronic Journal of Linear Algebra [electronic only]
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Nilpotent matrices and spectrally arbitrary sign patterns.
Pereira, Rajesh (2007)
ELA. The Electronic Journal of Linear Algebra [electronic only]
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Spectrum preserving lower triangular completions -- the nonnegative nilpotent case.
Berman, Abraham, Krupnik, Mark (1997)
ELA. The Electronic Journal of Linear Algebra [electronic only]
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Generating potentially nilpotent full sign patterns.
Kim, In-Jae, Olesky, Dale D., Shader, Bryan L., Van Den Driessche, Pauline, Van Der Holst, Hein, Vander Meulen, Kevin N. (2009)
ELA. The Electronic Journal of Linear Algebra [electronic only]
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M-matrices: a generalization of M-matrices based on eventually nonnegative matrices.
Olesky, Dale D., Tsatsomeros, Michael J., van den Driessche, Pauline (2009)
ELA. The Electronic Journal of Linear Algebra [electronic only]
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Spectrum of infinite block matrices and -triangular operators.
Gil', Michael (2007)
ELA. The Electronic Journal of Linear Algebra [electronic only]
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The equations of conjugacy classes of nilpotent matrices.
J. Weyman (1989)
Inventiones mathematicae
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On determining minimal spectrally arbitrary patterns.
Cavers, Michael S., Kim, In Jae, Shader, Bryan L., Vander Meulen, Kevin N. (2005)
ELA. The Electronic Journal of Linear Algebra [electronic only]
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Norm estimates for functions of two commuting matrices.
Gil, Michael (2005)
ELA. The Electronic Journal of Linear Algebra [electronic only]
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On the linear capacity of algebraic cones
Marcin Skrzyński (2002)
Mathematica Bohemica
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We define the linear capacity of an algebraic cone, give basic properties of the notion and new formulations of certain known results of the Matrix Theory. We derive in an explicit way the formula for the linear capacity of an irreducible component of the zero cone of a quadratic form over an algebraically closed field. We also give a formula for the linear capacity of the cone over the conjugacy class of a “generic” non-nilpotent matrix.