Online Supplementary Material: Low temperature vortex liquid in La2-xSrxCuO4
Abstract
We report here the supplementary material for Ref. [1]. Using torque magnetometry, we measured the magnetization anisotropy of 7 crystals of La2-xSrxCuO4 (LSCO). In optimally-doped cuprates, the bulk susceptibility is dominated by the paramagnetic van-Vleck orbital term orb which has a significant anisotropy (orbc>orbab) that changes weakly with T (subscripts c and ab identify quantities measured with H||c and H c, respectively). Moreover, in the lightly-doped regime, the paramagnetic spin susceptibilities sc and sab become significantly large below the interval 40-60 K. However, the spin susceptibility is very nearly isotropic (except below 10 K where its anisotropy becomes measurable). Against the large orbital and spin terms, the weak diamagnetic signal is very difficult to resolve using standard bulk magnetometry in lightly-doped cuprates. By contrast, torque magnetometry selectively detects the orbital diamagnetism generated by supercurrents confined to the CuO2 layers while ignoring the large spin contribution when it is isotropic. The orbital van-Vleck contribution is also detected, but as a ``background'' that is H-linear to intense fields and only mildly T dependent.
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