Electronic transport in reactively sputtered Mn3GaN films prepared under optimized nitrogen flow

Christoph Sürgers, Gerda Fischer, Sihao Deng, Dongmei Hu, Cong Wang
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Abstract

Mn-based nitrides with antiperovskite structures have several properties that can be utilized for antiferromagnetic spintronics. Their magnetic properties depend on the structural quality, composition and doping of the cubic antiperovskite structure. Such nitride thin films are usually produced by reactive physical vapor deposition, where the deposition rate of N can only be controlled by the N2 gas flow. We show that the tuning of the N content can be optimized using low temperature resistivity measurements, which serve as an indicator of the degree of structural disorder. Several Mn3GaNx films were prepared by reactive magnetron sputtering under different N2 gas flows. Under optimized gas flow conditions, we obtain films that exhibit a metal-like temperature dependence of the resistivity, a vanishing logarithmic increase of the resistivity towards zero, the highest resistivity ratio, and a lattice contraction of 0.4% along the growth direction when heated above the Néel temperature TN. The retarded formation of an additional magnetic phase appearing at a temperature TTN gives rise to a large thermal hysteresis of the resistivity and anomalous Hall effect.
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在优化氮气流条件下制备的反应溅射 Mn3GaN 薄膜中的电子传输
具有反包晶石结构的锰基氮化物具有多种特性,可用于反铁磁自旋电子学。它们的磁性取决于立方反钝化结构的结构质量、组成和掺杂。这种氮化物薄膜通常是通过反应性物理气相沉积法生产的,其中 N 的沉积速率只能通过 N2 气体流量来控制。我们的研究表明,可以通过低温电阻率测量来优化 N 含量的调整,这可以作为结构紊乱程度的指标。我们在不同的 N2 气体流条件下通过反应磁控溅射制备了几种 Mn3GaNx 薄膜。在优化的气流条件下,我们获得的薄膜表现出类似金属的电阻率温度依赖性、电阻率向零的对数增长消失、最高的电阻率比,以及当加热超过奈尔温度 TN 时沿生长方向 0.4% 的晶格收缩。在温度 T∗≪TN 时出现的附加磁性相的延迟形成导致了电阻率的巨大热滞后和反常霍尔效应。
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