Ground States of Fermionic Nonlinear Schr\"odinger Systems with Coulomb Potential I: The L2-Subcritical Case

Abstract

We consider ground states of the N coupled fermionic nonlinear Schr\"odinger systems with the Coulomb potential V(x) in the L2-subcritical case. By studying the associated constraint variational problem, we prove the existence of ground states for the system with any parameter α>0, which represents the attractive strength of the non-relativistic quantum particles. The limiting behavior of ground states for the system is also analyzed as α∞, where the mass concentrates at one of the singular points for the Coulomb potential V(x).

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