The d-wave vortex lattice state is studied within the framework of Bogoliubov-de Gennes mean field theory. We allow antiferromagnetic (AFM) order to develop self-consistently along with d-wave singlet superconducting (dSC) order in response to an external magnetic field that generates vortices. The resulting AFM order has strong peaks at the vortex centers, and changes sign, creating domain walls along lines where del x j(s)approximate to0. The length scale for decay of this AFM order is found to be much larger than the bare d-wave coherence length, xi. Coexistence of dSC and AFM order in this system is shown to induce pi-triplet superconducting order. Competition between different orders is found to suppress the local density of states at the vortex center and comparison to recent experimental findings is discussed.
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