Absence of Transport Altermagnetic Spin-Splitting Effect in RuO <sub>2</sub>
Yu-Chun Wang, Zhe-Yu Shen, Chia-Hsi Lin, Wei-Chih Hsu, You-Sheng Chen, Yi‐Ying Chin, Akhilesh Kr. Singh, Wei‐Li Lee, Chien-Te Chen, Ssu-Yen Huang, Danru Qu
Abstract
High Resolution Image Download MS PowerPoint Slide Altermagnets have attracted significant interest recently. Through the altermagnetic spin-splitting effect (ASSE), a longitudinal spin-polarized or a transverse pure spin current can be generated upon charge current injection. The ASSE is a key experimental feature for altermagnets but is often mixed with the spin Hall effect (SHE). Here, we present a comprehensive study of spin-to-charge conversion in epitaxial ruthenium dioxide (RuO 2 ) thin films using the ferromagnetic insulator yttrium iron garnet (YIG) as the spin current source. We conclusively show the absence of the ASSE in RuO 2 films grown with three different crystal orientations. Instead, we attribute the spin-to-charge conversion signals solely to the SHE. Moreover, we reveal a negative spin Hall angle in RuO 2 when it is adjacent to YIG, which reverses the sign when interfaced with Py. Our study provides crucial insights into the recent arguments on RuO 2 and advances the understanding of spin-to-charge conversion in low-symmetry materials.