Jiang Hao, Cao Guanghan, Cao Chao
Department of Physics, Zhejiang University, Hangzhou 310027, P.R. China.
Collaborative Innovation Centre of Advanced Microstructures, Nanjing 210093, China.
Sci Rep. 2015 Nov 3;5:16054. doi: 10.1038/srep16054.
The electronic structure of quasi-one-dimensional superconductor K2Cr3As3 is studied through systematic first-principles calculations. The ground state of K2Cr3As3 is paramagnetic. Close to the Fermi level, the Cr-3dz(2), dxy, and d(x(2)-y(2)) orbitals dominate the electronic states, and three bands cross EF to form one 3D Fermi surface sheet and two quasi-1D sheets. The electronic DOS at EF is less than 1/3 of the experimental value, indicating a large electron renormalization factor around EF. Despite of the relatively small atomic numbers, the antisymmetric spin-orbit coupling splitting is sizable (≈60 meV) on the 3D Fermi surface sheet as well as on one of the quasi-1D sheets. Finally, the imaginary part of bare electron susceptibility shows large peaks at Γ, suggesting the presence of large ferromagnetic spin fluctuation in the compound.
通过系统的第一性原理计算研究了准一维超导体K2Cr3As3的电子结构。K2Cr3As3的基态是顺磁性的。在费米能级附近,Cr-3dz(2)、dxy和d(x(2)-y(2))轨道主导电子态,并且三个能带穿过EF形成一个三维费米面片和两个准一维面片。EF处的电子态密度小于实验值的1/3,表明在EF附近有一个大的电子重整化因子。尽管原子序数相对较小,但在三维费米面片以及其中一个准一维面片上,反对称自旋轨道耦合分裂相当大(约60 meV)。最后,裸电子磁化率的虚部在Γ处显示出大的峰值,表明该化合物中存在大的铁磁自旋涨落。