Superconductivity in crystals without inversion symmetry has received extensive attention due to its unconventional pairing and possible nontrivial topological properties.Using first-principles calculations,we systemi...Superconductivity in crystals without inversion symmetry has received extensive attention due to its unconventional pairing and possible nontrivial topological properties.Using first-principles calculations,we systemically study the electronic structure of noncentrosymmetric superconductors A_(2)Cr_(3)As_(3)(A=Na,K,Rb,and Cs).展开更多
基金supported by the National Natural Science Foundation of China(51922014,11774414,51972336 and 61835014)the Key Research Program of Frontier Sciences,CAS(ZDBSLY-SLH035)+2 种基金Tianshan Innovation Team Program(2018D14001)the Western Light Foundation of CAS(Y92S191301)Fujian Institute of Innovation,CAS。
基金This work has been supported by the NSFC(Nos.11874137,11574265,and 11774309)the 973 project(Nos.2014CB648400 and 2016YFA0300402).
文摘Superconductivity in crystals without inversion symmetry has received extensive attention due to its unconventional pairing and possible nontrivial topological properties.Using first-principles calculations,we systemically study the electronic structure of noncentrosymmetric superconductors A_(2)Cr_(3)As_(3)(A=Na,K,Rb,and Cs).
