Igor Tyulnev, Lin Zhang, Lenard Vamos, Julita Poborska, Utso Bhattacharya, Ravindra W. Chhajlany, Tobias Grass, Samuel Mañas-Valero, Eugenio Coronado, Maciej Lewenstein, Jens Biegert
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引用次数: 0
摘要
这项研究探索了如何利用偏振分辨高次谐波发生(HHG)光谱来研究 TiSe$_2$ 的相关电荷密度波(CDW)相中的量子相和跃迁。与以往侧重于晶体学变化的研究不同,这项研究考察了当材料从室温冷却到 14 K 时 CDW 相内发生的重新排序。通过将超快场驱动动力学与材料的电位景象联系起来,这项研究展示了 HHG 如何对量子相位跃迁敏感。该研究强调了线性和非线性光学响应之间的相互作用以及它们与简单扰动动力学之间的偏离,为研究凝聚态系统中的相关量子相提供了全新视角。
High harmonic spectroscopy reveals anisotropy of the Mott to Charge-Density-Wave phase transition in TiSe$_2$
This work explores the use of polarization-resolved high harmonic generation
(HHG) spectroscopy to investigate the quantum phases and transitions in the
correlated charge density wave (CDW) phase of TiSe$_2$. Unlike previous studies
focusing on crystallographic changes, the research examines the reordering that
occurs within the CDW phase as the material is cooled from room temperature to
14 K. By linking ultrafast field-driven dynamics to the material's potential
landscape, the study demonstrates how HHG is sensitive to quantum phase
transitions. The findings reveal an anisotropic component below the CDW
transition temperature, providing new insights into the nature of this phase.
The investigation highlights the interplay between linear and nonlinear optical
responses and their departure from simple perturbative dynamics, offering a
fresh perspective on correlated quantum phases in condensed matter systems.
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