Gap reopening as signature of coupling between Majorana zero modes in Sn-(Bi,Sb)2(Te,S)3-based Josephson trijunctions

In the past two decades, enormous efforts have been made to search for possible platforms and schemes to implement topological quantum computation (TQC). In exploring the Fu-Kane scheme of TQC based on Josephson trijunctions constructed on topological insulators, the expected Majorana phase diagram of a single trijunction has been experimentally verified. If Majorana zero modes indeed exist in this kind of trijunctions, coupling between them in multiple trijunction devices would be further expected. In this study, we fabricated Josephson devices containing two adjacent Josephson trijunctions on the surface of Sn-(Bi,Sb)2(Te,S)3, and observed that the minigap reopens for both trijunctions in their phase spaces where a closure would otherwise be expected if the trijunctions existed independently. Our findings would provide new experimental support for the validity of the Fu-Kane theory and instill further confidence in advancing along the TQC scheme proposed by Fu and Kane.