1. Magneto-transport study on Sn-rich Sn1−xGex thin films enabled by CdTe buffer layer.
- Author
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Basnet, Rabindra, Upreti, Dinesh, McCarthy, Tyler T., Ju, Zheng, McMinn, Allison M., Sharma, M. M., Zhang, Yong-Hang, and Hu, Jin
- Subjects
THIN films ,BUFFER layers ,GERMANIUM films ,MOLECULAR beam epitaxy ,SUBSTRATES (Materials science) ,FREQUENCIES of oscillating systems ,FLUX pinning - Abstract
α-Sn, generally known as gray tin, has attracted significant scientific interest due to its potential to host novel topological phases. Studying the transport properties of α-Sn thin films grown on the InSb substrate has been challenging, as the InSb substrate also significantly contributes to the transport properties. In this article, we report a novel approach to epitaxially grow α-Sn thin films on an InSb substrate with a resistive buffer layer of CdTe. Thin films of α−Sn
1−x Gex (x = 0, 0.025) alloy of 15 nm thickness have been grown using molecular beam epitaxy. The high quality of the samples has been determined through high-resolution x-ray diffraction. The CdTe buffer layer has high resistance and acts as an insulating virtual substrate, which significantly suppresses contribution from InSb. Magnetotransport measurements show clear Shubnikov–de Hass oscillations in α−Sn1−x Gex (x = 0, 0.025) thin films. A change in oscillation frequency is observed upon alloying with Ge, implying a modification in the electronic structure and demonstrating the effectiveness of the CdTe buffer layer approach. This work provides a new approach that enables the electronic transport characterization of the α−Sn1−x Gex alloy system, which enables the study of the topological quantum states using electronic transport and their device applications. [ABSTRACT FROM AUTHOR]- Published
- 2024
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