Molecular beam epitaxy growth of nonmagnetic Weyl semimetal LaAlGe thin film

被引:9
|
作者
Bhattarai, Niraj [1 ,2 ]
Forbes, Andrew W. [1 ,2 ]
Dulal, Rajendra P. [3 ]
Pegg, Ian L. [1 ,2 ]
Philip, John [1 ,2 ]
机构
[1] Catholic Univ Amer, Dept Phys, Washington, DC 20064 USA
[2] Catholic Univ Amer, Vitreous State Lab, Washington, DC 20064 USA
[3] Chapman Univ, Inst Quantum Phys, Adv Phys Lab, Burtonsville, MD 20866 USA
来源
MRS COMMUNICATIONS | 2020年 / 10卷 / 02期
关键词
Germanium alloys - Topography - Lanthanum compounds - Aluminum compounds - Molecular beams - Film growth - Crystal structure - Phonons - Thin films;
D O I
10.1557/mrc.2020.28
中图分类号
T [工业技术];
学科分类号
08 ;
摘要
Here, the authors report a detailed method of growing LaAlGe, a nonmagnetic Weyl semimetal, thin film on silicon(100) substrates by molecular beam epitaxy and their structural and electrical characterizations. About 50-nm-thick LaAlGe films were deposited and annealed for 16 h in situ at a temperature of 793 K. As-grown high-quality films showed uniform surface topography and near ideal stoichiometry with a body-centered tetragonal crystal structure. Temperature-dependent longitudinal resistivity can be understood with dominant interband s-d electron-phonon scattering in the temperature range of 5-40 K. Hall measurements confirmed the semimetallic nature of the films with an electron-dominated charge carrier density of similar to 7.15 x 10(21) cm(-3) at 5 K.
引用
收藏
页码:272 / 277
页数:6
相关论文
共 50 条
  • [31] Molecular beam epitaxy growth and doping modulation of topological semimetal NiTe2
    Zhang, Liguo
    Zhao, Dapeng
    Liu, Xiangyang
    Lai, Junwen
    Ren, Junhai
    Wang, Qin
    Lin, Haicheng
    Sun, Yan
    Tanigaki, Katsumi
    APPLIED PHYSICS LETTERS, 2024, 125 (05)
  • [32] Growth of CuGaSe2 film by molecular beam epitaxy
    Yamada, A
    Makita, Y
    Niki, S
    Obara, A
    Fons, P
    Shibata, H
    MICROELECTRONICS JOURNAL, 1996, 27 (01) : 53 - 58
  • [33] Topological Insulator Film Growth by Molecular Beam Epitaxy: A Review
    Ginley, Theresa P.
    Wang, Yong
    Law, Stephanie
    CRYSTALS, 2016, 6 (11):
  • [34] Synthesis of semimetal A3Bi (A = Na, K) thin films by molecular beam epitaxy
    Wen, Jing
    Guo, Hua
    Yan, Chen-Hui
    Wang, Zhen-Yu
    Chang, Kai
    Deng, Peng
    Zhang, Teng
    Zhang, Zhi-Dong
    Ji, Shuai-Hua
    Wang, Li-Li
    He, Ke
    Ma, Xu-Cun
    Chen, Xi
    Xue, Qi-Kun
    APPLIED SURFACE SCIENCE, 2015, 327 : 213 - 217
  • [35] Growth of CrTe thin films by molecular-beam epitaxy
    Sreenivasan, MG
    Hou, XJ
    Teo, KL
    Jalil, MBA
    Liew, T
    Chong, TC
    THIN SOLID FILMS, 2006, 505 (1-2) : 133 - 136
  • [36] Growth of iron nitride thin films by molecular beam epitaxy
    Naito, Michio
    Uehara, Koji
    Takeda, Rikimaru
    Taniyasu, Yoshitaka
    Yamamoto, Hideki
    JOURNAL OF CRYSTAL GROWTH, 2015, 415 : 36 - 40
  • [37] Epitaxial Growth of NdFeAsO Thin Films by Molecular Beam Epitaxy
    Kawaguchi, Takahiko
    Uemura, Hiroki
    Ohno, Toshiya
    Watanabe, Ryotaro
    Tabuchi, Masao
    Ujihara, Toru
    Takenaka, Koshi
    Takeda, Yoshikazu
    Ikuta, Hiroshi
    APPLIED PHYSICS EXPRESS, 2009, 2 (09)
  • [38] Fabrication of BaTiO3 thin film by molecular beam epitaxy
    Sekiguchi, S
    Shigetani, H
    Fujimoto, N
    Tanaka, J
    MANUFACTURING OF ELECTRONIC MATERIALS AND COMPONENTS, 1998, 90 : 141 - 151
  • [39] Growth and properties of AlSbBi thin films by molecular beam epitaxy
    Zhang, Xiaolei
    Zhang, Yanchao
    Yue, Li
    Liang, Hao
    Chi, Chaodan
    Wu, Yufeng
    Ou, Xin
    Wang, Shumin
    JOURNAL OF ALLOYS AND COMPOUNDS, 2019, 801 : 239 - 242
  • [40] THIN-FILM DEPOSITION OF BAO BY MOLECULAR-BEAM EPITAXY
    MUTHE, KP
    VYAS, JC
    KOTHIYAL, GP
    GANDHI, DP
    DEBNATH, AK
    GUPTA, SK
    SABHARWAL, SC
    GUPTA, MK
    JOURNAL OF CRYSTAL GROWTH, 1992, 118 (1-2) : 213 - 217
12345