Online Supplementary Material: Low temperature vortex liquid in $\rm La_{2-x}Sr_xCuO_4$
msra(2007)
摘要
We report here the supplementary material for Ref. [1]. Using torque
magnetometry, we measured the magnetization anisotropy of 7 crystals of $\rm
La_{2-x}Sr_xCuO_4$ (LSCO). In optimally-doped cuprates, the bulk susceptibility
is dominated by the paramagnetic van-Vleck orbital term $\chi_{orb}$ which has
a significant anisotropy ($\chi^{orb}_c>\chi^{orb}_{ab}$) that changes weakly
with $T$ (subscripts $c$ and ${ab}$ identify quantities measured with $\bf
H||c$ and $\bf H\perp c$, respectively). Moreover, in the lightly-doped regime,
the paramagnetic spin susceptibilities $\chi^s_c$ and $\chi^s_{ab}$ 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 CuO$_2$ 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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关键词
magnetic anisotropy
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