Investigation of potential fluctuating intra-unit cell magnetic order in cuprates by μ SR

We report low temperature muon spin relaxation (μSR) measurements of the high-transition-temperature (Tc) cuprate superconductors Bi2+xSr2-xCaCu2O8+δ and YBa2Cu3O6.57, aimed at detecting the mysterious intra-unit cell (IUC) magnetic order that has been observed by spin-polarized neutron scattering in the pseudogap phase of four different cuprate families. A lack of confirmation by local magnetic probe methods has raised the possibility that the magnetic order fluctuates slowly enough to appear static on the time scale of neutron scattering, but too fast to affect μSR or nuclear magnetic resonance signals. The IUC magnetic order has been linked to a theoretical model for the cuprates, which predicts a long-range ordered phase of electron-current loop order that terminates at a quantum crictical point (QCP). Our study suggests that lowering the temperature to T∼25 mK and moving far below the purported QCP does not cause enough of a slowing down of fluctuations for the IUC magnetic order to become detectable on the time scale of μSR. Our measurements place narrow limits on the fluctuation rate of this unidentified magnetic order.