The Magnetism of Li doped La2CuO4: the antiferromagnetic spin-shard state
Abstract
We study the dynamics of a single hole in Li and Sr doped La2CuO4 and its extension to a finite hole concentration. We compare the physics of La2-xSrxCuO4 and La2Cu1-xLixO4 and explain why these systems are remarkably different. We demonstrate that holes in La2Cu1-xLixO4 are always localized and that there is a critical concentration, xc≈ 0.03, above which the holes break the global antiferromagnetic state into an array of weakly coupled antiferromagnetic clusters (antiferromagnetic shards). We show that the spin-shard state provides a description of the magnetic and electric properties of La2Cu1-xLixO4. Two experiments that can test our theory are proposed.
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