Transport in Coherently Strained Thin Films of a 3D Dirac Semimetal

Manik Goyal; David Kealhofer; Timo Schumann; Luca Galleti; Susanne Stemmer

Transport in Coherently Strained Thin Films of a 3D Dirac Semimetal

ORAL

Abstract

Cd₃As₂ is a 3D Dirac semimetal with degenerate band crossings at isolated points in k-space
(Dirac nodes). Most prior studies have focused on the electronic states of bulk single crystals.
Thin films of Cd₃As₂ allow for using heteroepitaxy approaches to control their electronic states.
Here, we present our studies of epitaxial thin films of Cd₃As₂ grown by molecular beam epitaxy
on (111) GaAs with relaxed In_xGa_1-xSb buffer layers. The composition of the In_xGa_1-xSb buffer
layers was varied to obtain layers that are lattice matched with the Cd₃As₂, as well as to obtain
tensile and compressively strained Cd₃As₂. We measured the strain in the Cd₃As₂ films using
high-resolution x-ray diffraction and showed that in-plane strains can be varied between 0.7%
to -0.9%, depending on the In-content of the buffer layers. The electrical transport properties
systematically vary with the magnitude of the film strain. We discuss the utility of strain
engineering to control the electronic states.

March 6, 2018, 12:00 PM – March 6, 2018, 12:12 PM

Presenters

Manik Goyal

Materials, University of California, Santa Barbara, Material Science, University of California, Santa Barbara

Authors

Manik Goyal

Materials, University of California, Santa Barbara, Material Science, University of California, Santa Barbara
David Kealhofer

Department of Physics, University of California Santa Barbara, Univ of California - Santa Barbara, Physics, University of California, Santa Barbara, Department of Physics, University of California, Santa Barbara
Timo Schumann

ENMT, Materials Department, Univeristy of California Santa Barbara, Univ of California - Santa Barbara, Materials, University of California, Santa Barbara, Material Science, University of California, Santa Barbara, Materials Department, University of California Santa Barbara
Luca Galleti

Material Science, University of California, Santa Barbara
Susanne Stemmer

ENMT, Materials Department, Univ of California - Santa Barbara, Univ of California - Santa Barbara, UC Santa Barbara, ENMT, Materials Department, Univeristy of California Santa Barbara, Materials, University of California, Santa Barbara, Material Science, University of California, Santa Barbara, Materials Department, University of California Santa Barbara, Materials Department, Univ of California - Santa Barbara, Materials, Univ of California - Santa Barbara, Materials, Univ of California, Santa Barbara