Thermodynamic stability and vibrational properties of multi-alkali antimonides

Julia Santana-Andreo, Holger-Dietrich Saßnick, Caterina Cocchi
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Abstract

Modern advances in generating ultrabright electron beams have unlocked unprecedented experimental advances based on synchrotron radiation. Current challenges lie in improving the quality of electron sources with novel photocathode materials such as alkali-based semiconductors. To unleash their potential, a detailed characterization and prediction of their fundamental properties is essential. In this work, we employ density functional theory combined with machine learning techniques integrated into the hiphive package to probe the thermodynamic stability of various alkali antimonide crystals, emphasizing the role of the approximations taken for the exchange-correlation potential. Our results reveal that the SCAN functional offers an optimal trade-off between accuracy and computational costs to describe the vibrational properties of these materials. Furthermore, it is found that systems with a higher concentration of Cs atoms exhibit enhanced anharmonicities, which are accurately predicted and characterized with the employed methodology.
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多碱锑化物的热力学稳定性和振动特性
在产生超亮电子束方面取得的现代进步开启了基于同步辐射的前所未有的实验进展。目前的挑战在于如何利用新型光电阴极材料(如碱基半导体)提高电子源的质量。要释放这些材料的潜力,必须对其基本特性进行详细的表征和预测。在这项工作中,我们采用了密度泛函理论,并将机器学习技术集成到 hiphive 软件包中,以探测各种碱锑晶体的热力学稳定性,同时强调了交换相关势近似值的作用。我们的研究结果表明,SCAN 函数在描述这些材料的振动特性时,在准确性和计算成本之间实现了最佳权衡。此外,我们还发现,铯原子浓度较高的系统会表现出更强的非谐波性,而所采用的方法可以准确预测和描述这些非谐波性。
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