Effect of Doping-induced Disorder on Transition Temperature in High Tc Cuprates
Abstract
We study the effect of disorder induced by doping on the transition temperature in high Tc cuprates. Since the impurity lies between the CuO2 planes, the momentum transfer is restricted by small angle with a range of order of 1/(d kF), where kF is the Fermi momentum and d is the distance between the plane and the impurity. We find that the leading correction on the transition temperature in this case is in cubic order of 1/(d kF), while the single particle scattering rate is linearly proportional to 1/(d kF). Therefore, we conclude that the disorder induced by doping has rather small effect on Tc, while it could give large single particle scattering rate. We find that the reduction of Tc is about 3-10 %, using the single particle scattering rate (150-450 K) observed in the recent angle-resolved- photoemission-spectroscopy data on optimally doped Bi2212. The consequences of the small angle scattering in other physical quantities such as transport are also discussed.
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