Amplifying on a proposal by O'Dell for the realization of Bose-Einstein condensates of neutral atoms with attractive 1/r interaction, we point out that the instance of self-trapping of the condensate, without an external trap potential, is physically best understood by introducing appropriate atomic units. This reveals a remarkable scaling property: the physics of the condensate depends only on the two parameters N(2)a/a(u) and gamma/N-2, where N is the particle number, a the scattering length, a(u) the Bohr radius, and gamma the trap frequency in atomic units. We calculate accurate numerical results for self-trapping wave functions and potentials, and for energies, sizes, and peak densities, and compare with previous variational results. We point out the existence of a second solution of the extended Gross-Pitaevskii equation for negative scattering lengths, with and without trapping potential, which is born together with the ground state in a tangent bifurcation. This indicates the existence of an unstable collectively excited state of the condensate for negative scattering lengths.
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