摘要
Topological insulators(TIs)are considered as ideal platforms for generating large spin Hall conductivity(SHC),however,the bulk carrier problem,which is unavoidable in TIs,hinders their practical applications.Recently,topological semimetals(TSMs)have been proposed to achieve large SHC to replace TIs.However,the ideal TSM candidates with large SHC are still lacking.In terms of firstprinciples calculations,we predict that Ta3As family compounds exhibit complex crossing nodal-lines(CNL)properties in absence of the spin-orbit coupling(SOC).However,they transfer to Dirac TSMs under the influence of strong SOC,and present large SHC around Fermi level in particular.Remarkably,the SHC value of Ta_(3)Y(Y=As,Sb,Bi)is around 1500–1700 e/h=eTeΩ·cmT^(-1),which is comparable to noble metal Pt and much larger than TIs,Weyl TSMs,and 4d/5d transition metals.Our work not only suggests a kind of TSM family with interesting Dirac CNL around Fermi level,but also paves the way for searching large intrinsic SHC materials in complex CNL TSM systems.
基金
The authors thank Bin Huang and Bin Cui for the helpful discussions.We acknowledge the National Key R&D Program of China(2018YFB0407602)
Beijing Municipal Science and Technology Project under Grant Z201100004220002
the Fundamental Research Funds for the Central Universities and the China Postdoctoral Science Foundation(No.2020M670083,2020M672039)
the National Natural Science Foundation of China(Grant Nos.61627813,61571023,11674139,11674317,11974348,11834014,11834005)
the Strategic Priority Research Program of CAS(Grant No.XDB28000000 and No.XDB33000000)
the National Key Technology Program of China(Grant No.2017ZX01032101)
the Special Foundation for Theoretical Physics Research Program of China(No.11947207)
for their financial support of this work.Parts of the calculations were performed at Tianhe2-JK at CSRC.
