E. J. Singley scite author profile

Analysis of the interlayer infrared conductivity of cuprate high-transition temperature superconductors reveals an anomalously large energy scale extending up to midinfrared frequencies that can be attributed to formation of the superconducting condensate. This unusual effect is observed in a va- riety of materials, including Tl2Ba2CuO6+x, La2-xSrxCuO4, and YBa2Cu3O6.6, which show an incoherent interlayer response in the normal state. Midinfrared range condensation was examined in the context of sum rules that can be formulated for the complex conductivity. One possible interpretation of these experiments is in terms of a kinetic energy change associated with the superconducting transition.

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Impurity Band Conduction in a High Temperature Ferromagnetic Semiconductor

Burch

et al. 2006

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The band structure of a prototypical dilute magnetic semiconductor (DMS), Ga1-xMnxAs, is studied across the phase diagram via infrared and optical spectroscopy. We prove that the Fermi energy (EF) resides in a Mn-induced impurity band (IB). Specifically the changes in the frequency dependent optical conductivity [sigma1(omega)] with carrier density are only consistent with EF lying in an IB. Furthermore, the large effective mass (m*) of the carriers inferred from our analysis of sigma1(omega) supports this conclusion. Our findings demonstrate that the metal to insulator transition in this DMS is qualitatively different from other III-V semiconductors doped with nonmagnetic impurities. We also provide insights into the anomalous transport properties of Ga1-xMnxAs.

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E. J. Singley

Sum Rules and Interlayer Conductivity of High- T _c Cuprates

Impurity Band Conduction in a High Temperature Ferromagnetic Semiconductor

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E. J. Singley

Sum Rules and Interlayer Conductivity of High- T c Cuprates

Impurity Band Conduction in a High Temperature Ferromagnetic Semiconductor

Contact Info

Product

Resources

About

Sum Rules and Interlayer Conductivity of High- T _c Cuprates