Topological phases of monolayer and bilayer depleted Lieb lattices.

Existence of nontrivial topological phases in a tight binding Haldane-like model on the depleted Lieb lattice is reported. This two-band model is formulated by considering the nearest-neighbor (NN), next-NN (NNN) and next-NNN hopping terms along with complex phase which breaks the time reversal symmetry of this semi-metallic system. Topological feature of this model is studied along with the presence of sublattice symmetry breaking staggered onsite energy. Combined effect of these two broken symmetries is found crucial for an additional transition between nontrivial and trivial phases. System exhibits two types of phase transitions, say, between two nontrivial phases and nontrivial to trivial phases. Nonzero Chern numbers, existence of Hall plateau and symmetry protected edge states confirm the presence of the nontrivial phases. This two-band system hosts four different types of phases where two are topological. Additionally topological properties of stacked bilayer of the depleted Lieb lattices is also studied with similar Haldane-like Hamiltonian. This four-band system is found to host Chern insulating phases, with higher values of Chern numbers supported by in-gap edge states.

Sil A ，Ghosh AK 《-》

Nontrivial topological phases on the stuffed honeycomb lattice.

Sil A ，Kumar Ghosh A 《-》

Emergence of photo-induced multiple topological phases on square-octagon lattice.

Sil A ，Ghosh AK 《-》

Reconfigurable Topological Phases in Next-Nearest-Neighbor Coupled Resonator Lattices.

Leykam D ，Mittal S ，Hafezi M ，Chong YD ... -  《-》

Topological phase transitions and flat bands on an islamic lattice.

Yan XH ，Qi L ，Zhang X ，Liu Y ，He AL ... -  《-》