Infrared Properties of Electron Doped Cuprates: Tracking Normal State Gaps and Quantum Critical Behavior in Pr(2-x)Ce(x)CuO(4)

A.J. Millis; A. Zimmers; C.C. Homes; C.P. Hill; J.M. Tomczak; M.C. Barr; N. Bontemps; R.L. Greene; R.P.S.M. Lobo; Y. Dagan

arxiv: cond-mat/0406204 · v1 · pith:UAW6WNOOnew · submitted 2004-06-08 · ❄️ cond-mat.supr-con

Infrared Properties of Electron Doped Cuprates: Tracking Normal State Gaps and Quantum Critical Behavior in Pr(2-x)Ce(x)CuO(4)

A. Zimmers , J.M. Tomczak , R.P.S.M. Lobo , N. Bontemps , C.P. Hill , M.C. Barr , Y. Dagan , R.L. Greene

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A.J. Millis C.C. Homes

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classification ❄️ cond-mat.supr-con

keywords criticaldopingfilmquantumtemperaturebehaviorcoexistencecombining

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We report the temperature dependence of the infrared-visible conductivity of Pr(2-x)Ce(x)CuO(4) thin films. When varying the doping from a non-superconducting film (x = 0.11) to a superconducting overdoped film (x = 0.17), we observe, up to optimal doping (x = 0.15), a partial gap opening. A model combining a spin density wave gap and a frequency and temperature dependent self energy reproduces our data reasonably well. The magnitude of this gap extrapolates to zero for x ~ 0.17 indicating the coexistence of magnetism and superconductivity in this material and the existence of a quantum critical point at this Ce concentration.

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Infrared Properties of Electron Doped Cuprates: Tracking Normal State Gaps and Quantum Critical Behavior in Pr(2-x)Ce(x)CuO(4)

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