研究目的
Investigating the distinct bulk topological effects on directionality and timing of currents arising during electron injection into conduction bands in topological insulators under strong fields.
研究成果
The study identifies distinct bulk topological effects on the directionality and timing of currents in topological insulators under strong fields, mediated by the Berry curvature. These effects manifest in attosecond delays and helicities of emitted harmonics, providing a new tool for studying topological systems.
研究不足
The study is theoretical and numerical, focusing on the Haldane model. Experimental validation is needed to confirm the findings. The analysis assumes a two-band system and may not capture all complexities of real materials.
1:Experimental Design and Method Selection:
The study uses the Haldane system as a paradigmatic example of a topological insulator. The interaction of a moderately strong, mid-infrared pulse with the honeycomb structure is analyzed using the semiconductor Bloch equations for the Haldane tight-binding model.
2:Sample Selection and Data Sources:
The study focuses on the Haldane tight-binding model, with parameters chosen to cover both trivial and topological phases.
3:List of Experimental Equipment and Materials:
The study is theoretical and numerical, focusing on the interaction of light with the Haldane system.
4:Experimental Procedures and Operational Workflow:
The density matrix in the Wannier gauge is propagated in the presence of an infrared field on a Monkhorst–Pack grid, using a uniform time step.
5:Data Analysis Methods:
The analysis includes the calculation of high-harmonic spectra, temporal maps of emission, and the Fourier transform of the total injected electron density to confirm the dependence on the Berry curvature.
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