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Isotope effect on superconductivity in Josephson coupled stripes in underdoped cuprates

Abstract

Inelastic neutron scattering data for YBaCuO as well as for LaSrCuO indicate incommensurate neutron scattering peaks with incommensuration δ(x)\delta(x) away from the (π,π)(\pi,\pi) point. Tc(x)T_c(x) can be replotted as a linear function of the incommensuration for these materials. This linear relation implies that the constant that relates these two quantities, one being the incommensuration (momentum) and another being Tc(x)T_c(x) (energy), has the dimension of velocity we denote vv^*: kBTc(x)=vδ(x)k_B T_c(x) = \hbar v^* \delta(x). We argue that this experimentally derived relation can be obtained in a simple model of Josephson coupled stripes. Within this framework we address the role of the O16O18O^{16} \to O^{18} isotope effect on the Tc(x)T_c(x). We assume that the incommensuration is set by the {\em doping} of the sample and is not sensitive to the oxygen isotope given the fixed doping. We find therefore that the only parameter that can change with O isotope substitution in the relation Tc(x)δ(x)T_c(x) \sim \delta(x) is the velocity vv^*. We predict an oxygen isotope effect on vv^* and expect it to be 5\simeq 5%.Comment: 4 pages latex file, 2 eps fig

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