Zakharov system

The Zakharov system

The Zakharov system consists of a complex field u and a real field n which evolve according to the equations

${\displaystyle i\partial _{t}^{}u+\Delta u=un}$

${\displaystyle \Box n=-\Delta (|u|_{}^{2})}$

thus ${\displaystyle u}$ evolves according to a coupled Schrodinger equation, while ${\displaystyle n}$ evolves according to a coupled wave equation. We usually place the initial data ${\displaystyle u(0)}$ in ${\displaystyle H^{s_{0}}}$, the initial position ${\displaystyle n(0)}$ in ${\displaystyle H^{s_{1}}}$, and the initial velocity ${\displaystyle /partial_{t}n(0)}$ in ${\displaystyle H^{s_{1}-1}}$ for some real ${\displaystyle s_{0},s_{1}}$.

This system is a model for the propagation of Langmuir turbulence waves in an unmagnetized ionized plasma [Zk1972]. Heuristically, u behaves like a solution cubic NLS, smoothed by 1/2 a derivative. If one sends the speed of light in Box to infinity, one formally recovers the cubic nonlinear Schrodinger equation. Local existence for smooth data – uniformly in the speed of light! - was established in [KnPoVe1995b] by energy and gauge transform methods; this was generalized to non-scalar situations in [Lau-p], [KeWg1998].

An obvious difficulty here is the presence of two derivatives in the non-linearity for ${\displaystyle n}$. To recover this large loss of derivatives one needs to use the separation between the paraboloid t = x2 and the light cone ${\displaystyle |t|=|x|}$.

There are two conserved quantities: the ${\displaystyle L_{x}^{2}}$ norm of ${\displaystyle u}$

${\displaystyle \int |u|2dx}$

and the energy

${\displaystyle \int |ux|2+|n|2/2+|D-1xnt|2/2+n|u|2dx.}$

The non-quadratic term n|u|2 in the energy becomes difficult to control in three and higher dimensions. Ignoring this part, one needs regularity in (1,0) to control the energy.

Zakharov systems do not have a true scale invariance, but the critical regularity is (s0,s1) = ((d-3)/2, (d-2)/2).

Specific dimensions

• Zakharov system on R
• Zakharov system on T
• Zakharov system on R^2
• Zakharov system on R^3
• In dimensions d>4 LWP is known on R^d within an epsilon of the critical regularity [GiTsVl1997].