Abstract
By analogy to the topological models of fermions in one-dimensional periodically modulated lattices, we provide a systematic method to construct topological superconductors in BDI class. We then create superlattices of Majorana fermions to interpolate several Majorana chains, and realize topological superconductors with arbitrary winding numbers. Two kinds of chiral symmetries are identified in the systems with multiple chains. Of the two winding numbers associated to the chiral symmetries, one counts the number of zero-energy modes, while the other counts the difference of the numbers of α- and β-type Majorana zero states. We also show that one α- and one β-type Majorana zero modes collapse into fractional charged zero states when they are spatially intertwined. In the systems with odd number of chains, it induces topological superconductors with coexistence of fractional charged zero states and Majorana zero states. Finally by introducing symmetry breaking term, we present an intuitive explanation of the Z2 nature of the topological invariant in the D class.
Highlights
Majorana fermions, which are their own antiparticles, have been a very active pursuit in condensed matter physics due to their fundamental significance and potential applications in topological quantum computation[1,2,3,4]
By analogy to 1D periodically modulated lattices of fermions, it is expected that the above models support topological superconductors with unpaired Majorana fermions
We present a systematic method to construct 1D topological superconductors in BDI class by replacing fermion operators with Majorana ones in 1D topological insulators
Summary
Majorana fermions, which are their own antiparticles, have been a very active pursuit in condensed matter physics due to their fundamental significance and potential applications in topological quantum computation[1,2,3,4]. Consider Majorana fermions in 1D chains with periodically modulated hopping amplitudes, which is described by the following Hamiltonian, L There appears a pair of zero boundary modes, which are Majorana fermions.
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