Using the extended Blonder-Tinkham-Klapwijk (BTK) theory, this paper calculates the tunnelling conductance in quantum wire/insulator/dx2-y2 + idly mixed wave superconductor (q/I/dx2-y2 + idly) junctions. That is...Using the extended Blonder-Tinkham-Klapwijk (BTK) theory, this paper calculates the tunnelling conductance in quantum wire/insulator/dx2-y2 + idly mixed wave superconductor (q/I/dx2-y2 + idly) junctions. That is different from the case in d- and p-wave superconductor junctions. When the angle α between a-axis of the dx2-y2 wave superconductor and the interface normal is π/4, there follows a rather distinctive tunnelling conductance. The zero-bias conductance peak (ZBCP) may or may not appear in the tunnelling conductance. Both the interface potential z and the quasi-particle lifetime factor F are smaller, there is no ZBCP. Otherwise, the ZBCP will appear. The position of bias conductance peak (BCP) depends strongly on the amplitude ratio of two components for dx2-y2 + idxy mixed wave. The low and narrow ZBCP may coexist with the BCP in the tunnelling conductance. Using those features in the tunnelling conductance of q/I/dx2-y2 + idxy junctions, it can distinguish dx2-y2 + idxy mixed wave superconductor from d- and p-wave one.展开更多
考虑到准粒子的有限寿命效应,在Blonder-Tinkham-Klapw ijk(BTK)理论框架下,通过求解Bogo liubov-de G ennes(BdG)方程,计算正常金属/dx2-y2+idxy混合波超导隧道结中的准粒子输运系数与隧道谱.结果表明:准粒子的有限寿命效应不仅能压低...考虑到准粒子的有限寿命效应,在Blonder-Tinkham-Klapw ijk(BTK)理论框架下,通过求解Bogo liubov-de G ennes(BdG)方程,计算正常金属/dx2-y2+idxy混合波超导隧道结中的准粒子输运系数与隧道谱.结果表明:准粒子的有限寿命效应不仅能压低隧道谱中的电导峰,而且可以有效地阻止峰的滑移;随着非弹性散射的增强,还会在零偏压处形成一宽峰.展开更多
文摘Using the extended Blonder-Tinkham-Klapwijk (BTK) theory, this paper calculates the tunnelling conductance in quantum wire/insulator/dx2-y2 + idly mixed wave superconductor (q/I/dx2-y2 + idly) junctions. That is different from the case in d- and p-wave superconductor junctions. When the angle α between a-axis of the dx2-y2 wave superconductor and the interface normal is π/4, there follows a rather distinctive tunnelling conductance. The zero-bias conductance peak (ZBCP) may or may not appear in the tunnelling conductance. Both the interface potential z and the quasi-particle lifetime factor F are smaller, there is no ZBCP. Otherwise, the ZBCP will appear. The position of bias conductance peak (BCP) depends strongly on the amplitude ratio of two components for dx2-y2 + idxy mixed wave. The low and narrow ZBCP may coexist with the BCP in the tunnelling conductance. Using those features in the tunnelling conductance of q/I/dx2-y2 + idxy junctions, it can distinguish dx2-y2 + idxy mixed wave superconductor from d- and p-wave one.
文摘考虑到准粒子的有限寿命效应,在Blonder-Tinkham-Klapw ijk(BTK)理论框架下,通过求解Bogo liubov-de G ennes(BdG)方程,计算正常金属/dx2-y2+idxy混合波超导隧道结中的准粒子输运系数与隧道谱.结果表明:准粒子的有限寿命效应不仅能压低隧道谱中的电导峰,而且可以有效地阻止峰的滑移;随着非弹性散射的增强,还会在零偏压处形成一宽峰.
