Electronic and Structural Behavior of Basal-Plane Cd3As2 Thin Films According to Targeted Lattice Strain

Thomas G Farinha; Edwin Supple; Gregory M Stephen; Nicholas A Blumenschein; Adam L Friedman; Brian P Gorman; Christopher J Richardson

Electronic and Structural Behavior of Basal-Plane Cd3As2 Thin Films According to Targeted Lattice Strain

ORAL

Abstract

Basal-plane Cd₃As₂ is grown via molecular beam epitaxy on a series of metamorphic Al_xIn_1-xSb (001) buffers with compositions tuned to induce biaxial strain up to ±1.0%. The structural properties of these films are compared using x-ray diffraction and atomic force microscopy. Electronic properties are probed via Van der Pauw measurements. Films with topological insulating (30 nm) and topological semimetallic (100 nm) character are additionally compared for the effect of interfacial strain on surface-dominant vs. mixed surface/bulk transport.

March 17, 2025, 7:12 PM – March 17, 2025, 7:24 PM

Publication: "Abrupt ternary III–V metamorphic buffers," J. Appl. Phys. 135, 175304 (2024)

Presenters

Thomas G Farinha

The University of Maryland

Authors

Thomas G Farinha

The University of Maryland
Edwin Supple

Colorado School of Mines
Gregory M Stephen

Laboratory for Physical Sciences (LPS)
Nicholas A Blumenschein

Laboratory for Physical Sciences (LPS)
Adam L Friedman

Laboratory for Physical Sciences (LPS)
Brian P Gorman

Colorado School of Mines
Christopher J Richardson

Laboratory for Physical Sciences (LPS)