Fe/Bi superlattices: Fabrication of thin films and their characterizations

ORAL

Abstract

Iron and bismuth are known to be immiscible and unable to chemically bond with each other. Recent success in use of high-pressure techniques to synthesize FeBi2 under high pressure and temperature has inspired many to ask what physical properties it would possess. In this spirit, we have prepared Fe/Bi superlattice by e-beam evaporation to form thin film heterostructures with alternating Fe/Bi bilayers of various thicknesses and individual layer thickness ratios. The interfaces are expected to be smooth and sharp because of the immiscibility, though such simple expectation may have overlooked the surface or interface energy factors that would bear consequences on the uncertainty of crystallographic anisotropy. In this work, the bismuth and iron layers are grown with different sequences or on different substrates or substrate orientations. The physical properties are investigated in order to understand the coupling effects of the heterostructures in correlation to material structures. First-principle calculations were conducted to assist the data interpretations from the perspective of electronic structures.

*Grant No. 105-2221-E-110 -042 - Ministry of Science and Technology, Taiwan.

Presenters

  • Ting Lin

    • Physics, Natl Sun Yat-Sen University
    • Physic, Natl Sun Yat Sen Univ

Authors

  • Ting Lin

    • Physics, Natl Sun Yat-Sen University
    • Physic, Natl Sun Yat Sen Univ

  • Che Min Lin

    • Physics, Natl Sun Yat-Sen University
    • Physics, Natl Sun Yat Sen Univ
    • Physic, Natl Sun Yat Sen Univ

  • Wanchen Hsieh

    • International College of Semiconductor Technology, Natl Chiao-Tung University
    • Physics, Natl Sun Yat Sen Univ

  • P. V. Wadekar

    • Physics, Natl Sun Yat-Sen University
    • Natl Sun Yat-Sen Univ
    • Physics, Natl Sun Yat Sen Univ
    • Physic, Natl Sun Yat Sen Univ

  • H. C. Huang

    • Materials and Optoelectronic Science, Natl Sun Yat-Sen University
    • Natl Sun Yat-Sen Univ

  • Chun Fu Chang

    • International College of Semiconductor Technology, Natl Chiao-Tung University

  • Hye-Won Seo

    • Physics and Astronomy, Natl University of Jeiju
    • Physics and Astronomy, National University of Jeiju

  • Wei-Kan Chu

    • Physics and TcSUH, University of Houston
    • University of Houston
    • Physics and Center of Superconductivity, University of Houston

  • Li-Wei Tu

    • Department of Physics, National Sun Yat-sen University
    • Physics, Natl Sun Yat-Sen University
    • Natl Sun Yat-Sen Univ
    • Physics, Natl Sun Yat Sen Univ
    • Physic, Natl Sun Yat Sen Univ

  • Quark Chen

    • Physics, Natl Sun Yat-Sen University
    • Physics, Natl Sun Yat Sen Univ
    • Physics and Center of Superconductivity, University of Houston