Jun Li, Wenqi Fang, Shangjian Jin, Tengdong Zhang, Yanling Wu, Xiaodan Xu, Yong Liu, Dao-Xin Yao
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引用次数: 0
Abstract
Energy band theory is a foundational framework in condensed matter physics.
In this work, we employ a deep learning method, BNAS, to find a direct
correlation between electronic band structure and superconducting transition
temperature. Our findings suggest that electronic band structures can act as
primary indicators of superconductivity. To avoid overfitting, we utilize a
relatively simple deep learning neural network model, which, despite its
simplicity, demonstrates predictive capabilities for superconducting
properties. By leveraging the attention mechanism within deep learning, we are
able to identify specific regions of the electronic band structure most
correlated with superconductivity. This novel approach provides new insights
into the mechanisms driving superconductivity from an alternative perspective.
Moreover, we predict several potential superconductors that may serve as
candidates for future experimental synthesis.
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