Stability and Integrability Aspects for the Maxwell–Bloch Equations with the Rotating Wave Approximation

    2017, Volume 22, Number 2, pp.  109-121

    Author(s): Caşu I., Lăzureanu C.

    Infinitely many Hamilton–Poisson realizations of the five-dimensional real valued Maxwell–Bloch equations with the rotating wave approximation are constructed and the energy-Casimir mapping is considered. Also, the image of this mapping is presented and connections with the equilibrium states of the considered system are studied. Using some fibers of the image of the energy-Casimir mapping, some special orbits are obtained. Finally, a Lax formulation of the system is given.
    Keywords: Maxwell–Bloch equations, Hamiltonian dynamics, energy-Casimir mapping, homoclinic orbits, periodic orbits, elliptic functions
    Citation: Caşu I., Lăzureanu C., Stability and Integrability Aspects for the Maxwell–Bloch Equations with the Rotating Wave Approximation, Regular and Chaotic Dynamics, 2017, Volume 22, Number 2, pp. 109-121
    DOI: 10.1134/S1560354717020010



    Access to the full text on the Springer website