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>Achieving superconductivity with higher T-c in lightweight Al-Ti-Mg alloys: Prediction using machine learning and synthesis via high-pressure torsion process
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Achieving superconductivity with higher T-c in lightweight Al-Ti-Mg alloys: Prediction using machine learning and synthesis via high-pressure torsion process
Aluminum (Al) and titanium (Ti) are superconducting materials but their superconducting transition temperatures (T-c) are quite low as 1.20 and 0.39 K, respectively, while magnesium (Mg) never exhibits superconductivity. In this study, we explored new superconductors with higher T-c in the Al-Mg-Ti ternary system, along with the prediction using machine learning. High-pressure torsion (HPT) is utilized to produce the superconducting states. While performing AC magnetization measurements, we found, for the first time, superconducting states with T-c = 4.0 and 7.3 K for a composition of Al:Ti = 1:2. The magnetic anomalies appeared more sharply when the sample was processed by HPT at 573 K than at room temperature, and the anomalies exhibited DC magnetic field dependence characteristic of superconductivity. Magnetic anomalies also appeared at similar to 55 and similar to 93 K, being supported by the prediction using the machine learning for the Al-Ti-O system, and this suggests that Al-Ti oxides play an important role in the advent of such anomalies but that the addition of Mg could be less effective. Published under an exclusive license by AIP Publishing.
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