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We propose a dark matter candidate with an ``excited state'' 1--2 MeV above the ground state, which may be collisionally excited and deexcites by e^+e^- pair emission. By converting its kinetic energy into pairs, such a particle could produce a substantial fraction of the 511 keV line observed by the International Gamma-Ray Astrophysics Laboratory/SPI in the inner Milky Way. Only a small fraction of the dark matter candidates have sufficient energy to excite, and that fraction drops sharply with galactocentric radius, naturally yielding a radial cutoff, as observed. Even if the scattering probability in the inner kpc is 1% per Hubble time, enough power is available to produce the 310^42 pairs per second observed in the galactic bulge. We specify the parameters of a pseudo-Dirac fermion designed to explain the positron signal, and find that it annihilates chiefly to e^+e^- and freezes out with the correct relic density. We discuss possible observational consequences of this model.
Finkbeiner et al. (Mon,) studied this question.