Alternative representation of Magnus series by exact proper operator exponent

Abstract

In this report the emphasis is on an alternative representation of the Magnus series by proper operator (matrix) exponential solutions to differential equations (systems), both linear and nonlinear ODEs and PDEs. The main idea here is in exact linear representations of the nonlinear DEs. We proceeded from Dyson's time-ordered solutions, and using only generalizations of the well-known Baker-Campbell- Hausdorff (BCH) and Zassenhaus formulae for t-dependent operators directly converted them to simple proper operator exponents. The method being explicit both in terms of the operator and in terms of expressing the formal solution as an ordinary exponential, makes it quite easy to calculate analytical expressions to solutions in the form of a Taylor function series in one variable t. If introduce a mutually invertible change of variable t into the original equations and then find a solution to this new equation in the form with ordinary exponential, one can obtain a completely different Taylor expansion of the desired function. The essence of this method comes down to resuming the series.