Schrodinger:Maxwell-Schrodinger system

Maxwell-Schrodinger system in ${\displaystyle R^{3}}$

This system is a partially non-relativistic analogue of the [wave:mkg Maxwell-Klein-Gordon system]., coupling a U(1) connection A_a with a complex scalar field u. The Lagrangian density is

giving rise to the system of PDE

where the current density J_b is given by

As with the MKG system, there is a gauge invariance for the connection; one can place A in the Lorentz, Coulomb, or Temporal gauges (other choices are of course possible).

Let us place u in H^s, and A in H^sigma x H^{sigma-1}. The lack of scale invariance makes it difficult to exactly state what the critical regularity would be, but it seems to be s = sigma = 1/2.

• In the Lorentz and Temporal gauges, one has LWP for s >= 5/3 and s-1 <= sigma <= s+1, (5s-2)/3 [NkrWad-p]
  • For smooth data (s=sigma > 5/2) in the Lorentz gauge this is in references:NkTs1986 NkTs1986 (this result works in all dimensions)
• Global weak solutions are known in the energy class (s=sigma=1) in the Lorentz and Coulomb gauges references:GuoNkSr1996 GuoNkSr1996. GWP is still open however.
• Modified wave operators have been constructed in the Coulomb gauge in the case of vanishing magnetic field in [GiVl-p3], [GiVl-p5]. No smallness condition is needed on the data at infinity.
  • A similar result for small data is in references:Ts1993 Ts1993
• In one dimension, GWP in the energy class is known references:Ts1995 Ts1995
• In two dimensions, GWP for smooth solutions is known references:TsNk1985 TsNk1985