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Anisotropy of the electronic structure and superconducting gap in Bi2Sr2CaCu2O8

机译：Bi2Sr2CaCu2O8的电子结构和超导间隙的各向异性

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Existence of a large anisotropy of the superconducting energy gap in Bi2Sr2CaCu2O8 was confirmed by angle-resolved photoemission. The gap size, Δ (the full superconducting energy gap being 2Δ), is 0–4 meV for the ΓX and ΓY directions while that of the ΓM¯ direction, 45° away from the former two, is 17–19 meV. Comparison with previous reports was made with regard to the symmetry of the superconducting order parameter. It was also found that the electronic structure of the normal state in the ΓY direction is considerably modified by the incommensurate superstructure in the BiO plane. In contrast, the size of superconducting gap is identical within the present accuracy for both ΓX and ΓY directions, suggesting that the superstructure has a negligible effect on the size of the superconducting energy gap.

机译：通过角度分辨光发射证实了Bi2Sr2CaCu2O8中超导能隙的大各向异性。间隙尺寸Δ（全超导能隙为2Δ）对于ΓX和ΓY方向为0–4 meV，而ΓM方向与前两个方向相距45°的间隙尺寸为17–19 meV。关于超导阶数参数的对称性与以前的报告进行了比较。还发现，BiO平面上不相称的上层结构大大改变了ΓY方向上正常状态的电子结构。相反，在当前的精度范围内，对于ΓX和ΓY方向，超导间隙的大小是相同的，这表明上层结构对超导能隙的大小的影响可忽略不计。

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Yokoya T.; Takahashi T.; Mochiku T.; Kadowaki K.;
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1. EFFECTS OF GAP ANISOTROPY UPON THE ELECTRONIC STRUCTURE AROUND A SUPERCONDUCTING VORTEX [J] . Hayashi N., Machida K., Ichioka M. Physical Review, B. Condensed Matter . 1997,第14期

机译：间隙各向异性对超导涡旋周围电子结构的影响
2. Electronic Structure and Superconducting Gap Structure in BiS2-based Layered Superconductors [J] . Suzuki Katsuhiro, Usui Hidetomo, Kuroki Kazuhiko, Journal of the Physical Society of Japan . 2019,第4期

机译：基于BIS2的层叠超导体中的电子结构和超导间隙结构
3. Electronic Heat Capacity of Organic Superconductor κ-(BEDT-TTF)_2 Cu[N(CN)_2]Br -Quasi-particls Excitations and Anisotropy in Energy Gap- [J] . Yasuhiro Nakazawa 熱測定 . 2001,第3期

机译：有机超导体κ-（BEDT-TTF）_2 Cu [N（CN）_2] Br-准粒子激发的电子热容和能隙中的各向异性
4. Observation of normal and superconducting state energy gap features from intrinsic c-axis interlayer tunneling in Bi2Sr2CaCu2O8 crystals [C] . Ian F. Parker, Univ. of Birmingham, Birmingham, Superconducting Superlattices II: Native and Artificial . 1998

机译：从Bi2Sr2CaCu2O8晶体的固有c轴层间隧穿观察正常和超导态能隙特征
5. Using phonon imaging to probe anisotropy in the superconducting energy gap of lead. [D] . Short, Jonathan David. 2001

机译：使用声子成像来探测铅的超导能隙中的各向异性。
6. Anisotropy of the superconducting gap in the iron-based superconductor BaFe2(As1-xPx)2 [O] . T. Yoshida, S. Ideta, T. Shimojima, -1

机译：铁基超导体BaFe2（As1-xPx）2中超导间隙的各向异性
7. Effects of gap anisotropy upon the electronic structure around a superconducting vortex [O] . Hayashi, N., Ichioka, M., Machida, K. 1997

机译：间隙各向异性对电子结构的影响超导涡旋
8. Normal state electronic structure and the superconducting energy gap in HTSC's as determined from photoemission spectroscopy. [R] . Arko, A. J., List, R. S., Bartlett, R. J., 1989

机译：正常状态电子结构和HTsC中的超导能隙由光电发射光谱确定。

Anisotropy of the electronic structure and superconducting gap in Bi2Sr2CaCu2O8

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