Radiation-induced dynamical formation of Floquet-Bloch bands in Dirac Hamiltonians

arXiv - PHYS - Other Condensed Matter Pub Date : 2024-08-30 DOI:arxiv-2409.00285

Yuriko Baba, Vanessa Junk, Wolfgang Hogger, Francisco Domínguez-Adame, Rafael A. Molina, Klaus Richter

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Abstract

Recent experiments, combing ultrafast strong-field irradiation of surfaces with time- and angle-resolved photoemission spectroscopy, allow for monitoring the time-dependent charge carrier dynamics and the build-up of transient sidebands due to the radiation pulses. While these structures are reminiscent of Floquet-Bloch bands, standard Floquet theory is not applicable since it requires a strictly time-periodic driving field. To study the emergence and formation of such sidebands, i.e. to provide a link between common Floquet physics and dynamical mechanisms underlying short driving pulses, we consider a generalization of Floquet theory, the so-called $t-t^{\prime}$ formalism. This approach naturally extents Floquet theory to driving field amplitudes with a superimposed envelope shape. Motivated by experiments we study 2D Dirac Hamiltonians subject to linearly and circularly polarised light waves with a Gaussian field envelope of a few cycles. For these Floquet-Bloch Hamiltonians we study the evolution of their Floquet-Bloch spectra, accompanied by a systematic analysis of the time-dependent (sideband) transitions. We show that sideband occupation requires circularly polarized light for linear Dirac systems such as graphene, while for Dirac models with trigonal warping, describing surface states of topological insulators such as Bi$_2$ Se$_3$, both linearly and circularly polarised pulses induce sideband excitations.

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辐射诱导的狄拉克哈密顿中 Floquet-Bloch 带的动态形成

最近的实验将表面的超快强场辐照与时间和角度分辨光发射光谱结合起来，可以监测与时间相关的电荷载流子动力学以及辐射脉冲引起的瞬态边带的形成。虽然这些结构让人联想到弗洛克-布洛赫带，但标准的弗洛克理论并不适用，因为它需要一个严格的时间周期驱动场。为了研究这种边带的出现和形成，即在普通的弗洛克物理学和短驱动脉冲的动力学机制之间建立联系，我们考虑了弗洛克理论的广义化，即所谓的 $t-t^{\prime}$ 形式主义。这种方法自然而然地将 Floquet 理论扩展到了具有叠加包络形状的驱动场振幅。在实验的激励下，我们研究了受线性和圆偏振光波影响的二维狄拉克哈密顿，其高斯场包络为几个周期。对于这些弗洛克-布洛赫汉密尔顿，我们研究了它们的弗洛克-布洛赫光谱的演变，同时对随时间变化的（边带）转换进行了系统分析。我们的研究表明，对于石墨烯等线性狄拉克系统，边带占据需要圆偏振光；而对于描述 Bi$_2$ Se$_3$ 等拓扑绝缘体表面态的三棱翘曲狄拉克模型，线性和圆偏振脉冲都能诱发边带激发。

本文章由计算机程序翻译，如有差异，请以英文原文为准。

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arXiv - PHYS - Other Condensed Matter

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