The effects of vacancy defects and biaxial strain on the magnetism of α-Te are investigated using first-principles calculations. The calculated results show that the vacancy defects induce significant magnetism in… Click to show full abstract
The effects of vacancy defects and biaxial strain on the magnetism of α-Te are investigated using first-principles calculations. The calculated results show that the vacancy defects induce significant magnetism in α-Te: VTe1m and VTe7 defects generate magnetic moments of 3 μB and 2 μB, respectively. The density of states analysis reveals that vacancy defects introduce impurity subbands. While biaxial strain is taken into account, VTe1m exhibits a maximum magnetic moment of 3.8 μB at 4% strain and VTe7 also exhibits a maximum magnetic moment of 3.2 μB at −2% strain. Interestingly, magnetism is quenched at critical strain values (4% compression and 1% tension for VTe1m; −3% and 0% for VTe7). This study provides a theoretical foundation for designing α-Te-based spintronic devices (such as multistate magnetic memory, strain-gradient spin logic devices, and high-sensitivity magnetoelectric sensors) by regulating magnetism through vacancy defects and strain engine.
               
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