Nonlinear Sciences – Exactly Solvable and Integrable Systems
Scientific paper
1997-03-19
Nonlinear Sciences
Exactly Solvable and Integrable Systems
10 pages, RevTeX, no figures
Scientific paper
10.1103/PhysRevE.58.2526
We show in this letter that the perturbed Burgers equation $u_t = 2uu_x + u_{xx} + \epsilon ( 3 \alpha_1 u^2 u_x + 3\alpha_2 uu_{xx} + 3\alpha_3 u_x^2 + \alpha_4 u_{xxx} )$ is equivalent, through a near-identity transformation and up to order \epsilon, to a linearizable equation if the condition $3\alpha_1 - 3\alpha_3 - 3/2 \alpha_2 + 3/2 \alpha_4 = 0$ is satisfied. In the case this condition is not fulfilled, a normal form for the equation under consideration is given. Then, to illustrate our results, we make a linearizability analysis of the equations governing the dynamics of a one-dimensional gas.
Kraenkel Roberto A.
Pereira J. G.
Rey Neto Edgard Casal de
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