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研究了具有不同氧含量的Bi2Sr2CaCu2O8 δ单晶超导临界温度的各向异性,通过测量沿ab面和c轴的电阻率发现,在轻欠掺杂到过掺杂区域,单晶沿ab面和c轴的Tc值是比较接近的,但在重欠掺杂区,沿ab面的Tc值比c轴的Tc明显高,从平衡态的相位涨落模型可以得到,由于涨落效应对 c轴的临界电流密度的压制作用比对ab面的要强,导致了Tc的各向异性,但这种模型无法解释重欠掺杂超导体中ab面和c轴的Tc如此大的差别,我们认为重欠掺杂超导体中的相位涨落行为不同于其他掺杂超导体中的行为,实验和理论上都值得进一步深入研究。 相似文献
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High pressure synthesis and characterization of the pyrochlore Dy_2Pt_2O_7:A new spin ice material
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The cubic pyrochlore Dy2Pt2O7 was synthesized under 4 GPa and 1000℃ and its magnetic and thermodynamic properties were characterized by DC and AC magnetic susceptibility and specific heat down to 0.1 K.We found that Dy2Pt2O7 does not form long-range magnetic order,but displays characteristics of canonical spin ice such as Dy2Pt2O7,including(1)a large effective moment 9.64μB close to the theoretical value and a small positive Curie-Weiss temperatureθCW=+0.77 K signaling a dominant ferromagnetic interaction among the Ising spins;(2)a saturation moment ~4.5μB being half of the total moment due to the local<111>Ising anisotropy;(3)thermally activated spin relaxation behaviors in the low(~1 K)and high(~20 K)temperature regions with different energy barriers and characteristic relaxation time;and most importantly,(4)the presence of a residual entropy close to Pauling’s estimation for water ice. 相似文献
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Low-temperature thermal conductivity ($\kappa$), as well as the magnetic properties and specific heat, are studied for the frustrated zigzag spin-chain material SrEr$_{2}$O$_{4}$ by using single-crystal samples. The specific heat data indicate the long-range antiferromagnetic transition at $\sim 0.73 $ K and the existence of strong magnetic fluctuations. The magnetizations at very low temperatures for magnetic field along the $c$ axis (spin chain direction) or the $a$ axis reveal the field-induced magnetic transitions. The $\kappa $ shows a strong dependence on magnetic field, applied along the $c$ axis or the $a$ axis, which is closely related to the magnetic transitions. Furthermore, high magnetic field induces a strong increase of $\kappa $. These results indicate that thermal conductivity along either the $c$ axis or the $a$ axis are mainly contributed by phonons, while magnetic excitations play a role of scattering phonons. 相似文献
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