能斯特效应
凝聚态物理
热电效应
能斯特方程
霍尔效应
薄膜
电阻率和电导率
铁磁性
材料科学
塞贝克系数
溅射
兴奋剂
电导率
霍尔电导率
横截面
溅射沉积
热电材料
量子霍尔效应
作者
Sun-Woo Min,Soki Yoshida,Takuya Tsujimoto,Masato Ie,Chang-Keun Jo,Masaki Mizuguchi,Jung‐Hyuk Koh
摘要
The anomalous Nernst effect (ANE) has attracted extensive attention from both academia and industry owing to its unique thermoelectric physics and outstanding application potential. This study investigated the ANE and anomalous Hall effect in Cr-doped MnSb thin films deposited on MgO (100) substrates by varying the Cr content. All samples were deposited at 250 °C by employing the radio frequency sputtering process. The experimental results reveal that increasing the Cr content substantially enhanced both the ANE magnitude and the Nernst angle (θANE) by up to 3.5 times and more than five times, respectively. Furthermore, the transverse thermoelectric conductivity (αyx) and Hall conductivity (σyx) improved, while the longitudinal electrical resistivity (ρxx) decreased. Additionally, the sign of the normal Hall effect signal in MnSb thin films was found to be governed by the presence or absence of Cr doping. This study emphasizes the effectiveness of doping engineering as a viable pathway for tuning transverse thermoelectric responses in ferromagnetic systems.
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