Line nodes and surface Majorana flat bands in static and kicked p-wave superconducting Harper model

We investigate the effect of introducing nearest-neighbor \(p\)-wave superconducting pairing to both the static and kicked extended Harper model with two periodic phase parameters acting as artificial dimensions to simulate three-dimensional systems. It is found that in both the static model and the...

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Bibliographic Details
Published in:arXiv.org 2017-02
Main Authors: Wang, Huaiqiang, Chen, Mengnan, Bomantara, Raditya Weda, Gong, Jiangbin, Xing, Dingyu
Format: Article
Language:English
Subjects:
Boundary conditions
Brillouin zones
Computer simulation
Lattice vibration
Mathematical models
Nodes
Order parameters
Static models
Superconductivity
Three dimensional models
Topology
Two dimensional models
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Summary:We investigate the effect of introducing nearest-neighbor \(p\)-wave superconducting pairing to both the static and kicked extended Harper model with two periodic phase parameters acting as artificial dimensions to simulate three-dimensional systems. It is found that in both the static model and the kicked model, by varying the \(p\)-wave pairing order parameter, the system can switch between a fully gapped phase and a gapless phase with point nodes or line nodes. The topological property of both the static and kicked model is revealed by calculating corresponding topological invariants defined in the one-dimensional lattice dimension. Under open boundary conditions along the physical dimension, Majorana flat bands at energy zero (quasienergy zero and \(\pi\)) emerge in the static (kicked) model at the two-dimensional surface Brillouin zone. For certain values of pairing order parameter, (Floquet) Su-Schrieffer-Heeger-like edge modes appear in the form of arcs connecting different (Floquet) Majorana flat bands. Finally, we find that in the kicked model, it is possible to generate two controllable Floquet Majorana modes, one at quasienergy zero and the other at quasienergy \(\pi\), at the same parameter values.
ISSN:2331-8422
DOI:10.48550/arxiv.1609.01865