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Project A12 • Dynamics of the Gross–Pitaevskii equation

Principal investigators

  JProf. Dr. Xian Liao (1/2020 - )
  Prof. Dr. Guido Schneider (1/2020 - )

Project summary

The Gross–Pitaevskii equations (especially the nonlinear Schrödinger equations) arise naturally in numerous physical fields, such as Bose-Einstein condensation, deep water waves, nonlinear optics, etc. We will focus on the following one-dimensional Gross–Pitaevskii equation \[\begin{equation}\label{GP}\tag{GP} \mathrm{i}\partial_t q+\partial_{xx} q=2(|q|^2-1)q, \quad t,x\in\mathbb{R}, \quad q=q(t,x):\mathbb{R}\times\mathbb{R}\mapsto \mathbb{C}, \end{equation}\] where the wave function \(q\) satisfies the nonzero boundary condition at infinity: \[|q(x)|\rightarrow 1\text{ as }|x|\rightarrow\infty.\] This changes dramatically the dynamical behavior of the wave function compared to the zero boundary condition case: \(|\psi(x)|\rightarrow 0\text{ as }|x|\rightarrow\infty\), for solutions \(\psi\) of the cubic nonlinear defocusing Schrödinger equation \[\begin{equation}\label{NLS}\tag{NLS} \mathrm{i}\partial_t \psi+\partial_{xx} \psi=2|\psi|^2\psi, \quad t,x\in\mathbb{R},\quad \psi=\psi(t,x):\mathbb{R}\times\mathbb{R}\mapsto \mathbb{C}.\end{equation}\] Indeed, the \eqref{GP} equation describes the phenomena of the dark solitons in nonlinear optics, which preserve the initial energy (without scattering) for all times. The \eqref{NLS} equation has been extensively studied in the literature, while the \eqref{GP} equation still remains much less well understood. We propose to study the dynamics of the \eqref{GP} equation, including the stability issues for soliton solutions, the long time dynamics under long-wave weak perturbation, as well as the separation of the internal and interaction dynamics. The solutions of low regularity and with high oscillations will also be taken into account.

Project-specific staff
Name Phone E-Mail
+49 711 685-65545 guido schneiderPah0∂mathematik uni-stuttgart de
+49 721 608-42616 xian liaoQaj6∂kit edu