Abstract

We evaluate the charge and longitudinal spin response functions of a two-dimensional electron gas with e 2/ r interactions in an arbitrary state of spin polarization, using a structurally self-consistent approach to treat exchange and correlation and to demonstrate their roles in regard to the stabilization of spin-polarized states. From the results, we assess the nature of the magnetic order in the electronic ground state in zero-magnetic field as a function of electron density. We find that states of partial spin polarization are thermodynamically unstable at all values of the coupling strength and that a first-order quantum phase transition occurs with increasing coupling strength from the magnetically disordered (paramagnetic) phase to the fully spin-polarized (ferromagnetic) phase. This behaviour is consistent with diffusion Monte Carlo data, although the location of the phase transition is underestimated in our calculations.

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