论文信息 - One-dimensional continuum electronic structure with the density-matrix renormalization group and its implications for density-functional theory.

One-dimensional continuum electronic structure with the density-matrix renormalization group and its implications for density-functional theory.

We extend the density matrix renormalization group to compute exact ground states of continuum many-electron systems in one dimension with long-range interactions. We find the exact ground state of a chain of 100 strongly correlated artificial hydrogen atoms. The method can be used to simulate 1D cold atom systems and to study density-functional theory in an exact setting. To illustrate, we find an interacting, extended system which is an insulator but whose Kohn-Sham system is metallic.

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