Spin-gap formation in cuprates: gauge theory
Abstract
We analyze the phase diagram of single and bi-layer cuprates using the gauge-field description of the t-J model. For T>TBE the in-plane fermion-pairing order parameter Δ is eliminated by gauge field fluctuations, leading us to predict the absence of a spin-gap phase in single-layer cuprates. For bi-layer cuprates the inter-layer order parameter Δ is enhanced by spin correlations, and is less affected by gauge fluctuations. We believe that the spin gap in bi-layer materials is due to inter-layer fermion pairing, and that for these underdoped samples the superconducting gap may be nodeless.
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