Contents Online
Dynamics of Partial Differential Equations
Volume 18 (2021)
Number 1
Asymptotic behavior of solutions for a class of two-coupled nonlinear fractional Schrödinger equations
Pages: 11 – 32
DOI: https://dx.doi.org/10.4310/DPDE.2021.v18.n1.a2
Author
Abstract
In the current issue, we consider two coupled weakly dissipative fractional Schrödinger equations with cubic nonlinearities that reads\[\begin{cases}u_t - i(-\Delta)^{\frac{\alpha}{2}} u + i ({\lvert u \rvert}^2 + {\lvert v \rvert}^2) u + \gamma u = f \\v_t - i(-\Delta)^{\frac{\alpha}{2}} v + i ({\lvert u \rvert}^2 + {\lvert v \rvert}^2) v + \delta v_x + \gamma v = g\end{cases}\]We will prove that the asymptotic dynamics of the solutions will be described by the existence of a regular compact global attractor in the phase space with finite fractal dimension.
Keywords
fractional Schrödinger equation, dynamical systems, asymptotic behavior, global attractor, fractal dimension
2010 Mathematics Subject Classification
76B15, 35B40, 35Q55
Received 4 August 2020
Published 19 February 2021