Electronic Journal of Differential Equations

Electron. J. Diff. Eqns., Vol. 2004(2004), No. 01, pp. 1-18.

First order linear ordinary differential equations in associative algebras
Gordon Erlebacher & Garrret E. Sobczyk

Abstract:
In this paper, we study the linear differential equation
$\frac{dx}{dt}=\sum_{i=1}^n a_i(t) x b_i(t) + f(t)$
in an associative but non-commutative algebra $\mathcal{A}$ , where the $b_i(t)$

form a set of commuting $\mathcal{A}$ -valued functions expressed in a time-independent spectral basis consisting of mutually annihilating idempotents and nilpotents. Explicit new closed solutions are derived, and examples are presented to illustrate the theory.

Submitted September 6, 2003. Published January 2, 2004.
Math Subject Classifications: 15A33, 15A66, 34G10, 39B12.
Key Words: Associative algebra, factor ring, idempotent, differential equation, nilpotent, spectral basis, Toeplitz matrix.

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Gordon Erlebacher
Department of Mathematics
Florida State University
Tallahassee, FL 32306, USA
email: erlebach@math.fsu.edu

Garret E. Sobczyk
Universidad de las Americas
Departamento de Fisico-Matematicas
Apartado Postal #100, Santa Catarina Martir
72820 Cholula, Pue., Mexico
email: sobczyk@mail.udlap.mx

	Gordon Erlebacher Department of Mathematics Florida State University Tallahassee, FL 32306, USA email: erlebach@math.fsu.edu
	Garret E. Sobczyk Universidad de las Americas Departamento de Fisico-Matematicas Apartado Postal #100, Santa Catarina Martir 72820 Cholula, Pue., Mexico email: sobczyk@mail.udlap.mx

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First order linear ordinary differential equations in associative algebras Gordon Erlebacher & Garrret E. Sobczyk

First order linear ordinary differential equations in associative algebras
Gordon Erlebacher & Garrret E. Sobczyk