论文类型：期刊论文
第一作者：Hao Su
通讯作者：Yanfeng Guo,Gang Xu
合写作者：Weiwei Zhao,Na Yu,Zhiqiang Zou,Zhenhai Yu,Xuesong Hanli,Hongyuan Wang,Xia Wang,Wei Xia,Xianbiao Shi
发表刊物：Physical Review B
收录刊物：SCI
学科门类：理学
一级学科：物理学
文献类型：J
卷号：101
期号：20
页面范围：205138
ISSN号：2469-9950
发表时间：2020-05-21
影响因子：4.036
摘要：We report herein the results of magnetotransport measurements and ab initio calculations on single crystalline CaAl2Si2 semimetal. The transport properties could be understood in connection with the two-band model, agreeing well with the theoretical calculations indicating four main sheets of Fermi surface consisting of three hole pockets centered at the Γpoint and one electron pocket centered at the M point in the Brillouin zone. Magnetotransport measurements showed striking Shubnikov–de Haas oscillations associated with a nontrivial Berry phase, which originate from a hole Fermi pocket indicated by the ab initio calculations. The calculations also unveiled that the hole Fermi surface encloses a nodal line setting around the Γpoint close to the Fermi level without considering the spin-orbit coupling (SOC). Once the SOC is included, the fragile nodal-line will be gapped and a pair of Dirac points emerge along the high symmetric Γ−A direction located at the Brillouin zone coordinates (0, 0, kDz≈±0.278×2π/c), about 1.22 eV below the Fermi level. In addition, the SOC can also induce a topological insulator state along the Γ−A direction with a gap of about 3 meV. The results demonstrate CaAl2Si2 as an excellent platform for the study of novel topological physics with multiple nontrivial topological states.