Coexistence of pressure-induced superconductivity and topological surface states in elementary substance Sb
PHYSICAL REVIEW MATERIALS(2022)
摘要
Topological superconductors are expected to host non-Abelian Majorana zero mode which is of fundamental importance for topological quantum computing. However, the discovered topological superconductor candidates are still rare. Here, we systematically studied the topological semimetal antimony Sb through first-principles calculations, and found that a moderate pressure could induce the superconductivity coexisting with topological surface states. The superconducting critical transition temperature (T-c) reaches similar to 0.3 K under similar to 8 GPa and the topological surface states can be well preserved. The T-c can be much enhanced to similar to 2 K through further electron doping. Elementary substance antimony may provide a simple material platform to detect the Majorana boundary states and develop the topological quantum computation.
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关键词
superconductivity,topological surface states,pressure-induced
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