Por favor, use este identificador para citar o enlazar este ítem: http://hdl.handle.net/10259/8090
Título
Fidelity as a marker of topological phase transitions in 2D Dirac materials
Publicado en
International Journal of Quantum Chemistry. 2018, V. 118, n. 17, e25674
Editorial
Wiley
Fecha de publicación
2018-09
ISSN
0020-7608
DOI
10.1002/qua.25674
Résumé
Silicene, as other 2D buckled structures, is a gapped Dirac material with intrinsic spin-orbit coupling whose band structure can be controlled by applying a perpendicular electric field. It presents a topological phase transition from a topological insulator to a band insulator at the charge neutrality point. We present in this article a characterization of this phase transition by using fidelity of Loschmidt echoes when a magnetic and two slightly different electric fields are applied by considering the time evolution of two kinds of wave packets, one with a single Gaussian profile and the other with a double Gaussian profile creating a cat state. We also show that Zitterbewegung, classical, and revival Loschmidt periods diverge close to but not exactly at the charge neutrality point and explain this behavior.
Palabras clave
Bidimensional materials
Dirac equation
Silicene
Topological phases
Materia
Física
Physics
Química
Chemistry
Versión del editor
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