Tuning the Curie temperature of a 2D magnet/topological insulator heterostructure to above room temperature by epitaxial growth

• Published in: arXiv.org
• Main Authors: Zhou, Wenyi, Bishop, Alexander J, Zhang, Xiyue S, Robinson, Katherine, Lyalin, Igor, Li, Ziling, Bailey-Crandell, Ryan, Thow Min Jerald Cham, Cheng, Shuyu, Yunqiu Kelly Luo, Ralph, Daniel C, Muller, David A, Kawakami, Roland K
• Format: Paper Journal Article
• Language: English
• Published: Ithaca Cornell University Library, arXiv.org 25.08.2023
• Subjects: Curie temperature; Epitaxial growth; Heterostructures; Magnets; Materials selection; Molecular beam epitaxy; Physics - Materials Science; Physics - Mesoscale and Nanoscale Physics; Quantum Hall effect; Room temperature; Scanning transmission electron microscopy; Temperature; Thin films; Topological insulators
• ISSN: 2331-8422
• DOI: 10.48550/arxiv.2308.13620

Heterostructures of two-dimensional (2D) van der Waals (vdW) magnets and topological insulators (TI) are of substantial interest as candidate materials for efficient spin-torque switching, quantum anomalous Hall effect, and chiral spin textures. However, since many of the vdW magnets have Curie temperatures below room temperature, we want to understand how materials can be modified to stabilize their magnetic ordering to higher temperatures. In this work, we utilize molecular beam epitaxy to systematically tune the Curie temperature (\(T_C\)) in thin film Fe\(_3\)GeTe\(_2\)/Bi\(_2\)Te\(_3\) from bulk-like values (\(\sim\)220 K) to above room temperature by increasing the growth temperature from 300 \(^\circ\)C to 375 \(^\circ\)C. For samples grown at 375 \(^\circ\)C, cross-sectional scanning transmission electron microscopy (STEM) reveals the spontaneous formation of different Fe\(_m\)Ge\(_n\)Te\(_2\) compositions (e.g. Fe\(_5\)Ge\(_2\)Te\(_2\) and Fe\(_7\)Ge\(_6\)Te\(_2\)) as well as intercalation in the vdW gaps, which are possible origins of the enhanced Curie temperature. This observation paves the way for developing various Fe\(_m\)Ge\(_n\)Te\(_2\)/TI heterostructures with novel properties.