# Hotnano Project Meeting 12-05-2022 * In thin films, what happens if you break the mirror symmetry and add a superconductor to get Majorana-Kramers pairs? The mirror symmetry breaking should be smooth enough to suppress backscattering. * 3D QSHI? Heat turning the corner idea? * Computing bound states on the surface given a half-space infinite 2D system. Bound state solver. Go with the simplest model. * Think about surface calculation * Check with William if he knows all these things. # From Sebastian's notes - Recap meeting in Twente: - go ultrathin and hybridize two of the surfaces. -> Expect "double" QSH (backscattering) from mirror Chern number. Breaking mirror symmetry should gap these out. - Check Loss, Klinovaja again for their work on QSH, SC interfaces. - Check mirror planes in SnTe - What happens with hinge modes in rounded corners? - 3D QSH via helical hinge states along the edges for heat transport -> Heat engines fro 3D QSH - William does Qsymm and bandstructure cals (atm) Interesting in this context is to simulate infinite (in two directions) surfaces - In this regard interesting might be the paper from Xavier's group - Find two Dirac cones on surface - Find the symmetries and systematically study breaking them for new mechanisms - -> kwant bound state solver is method for this Different ways - Feed Ham into Qsymm to get Syms or other way around Actions: - Think about surface calc - New mechanisms