量子材料的多维太赫兹探针

arXiv - PHYS - Superconductivity Pub Date : 2024-09-05 DOI:arxiv-2409.03719

Albert Liu

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引用次数: 0

摘要

多维光谱学由来已久，起源于核磁共振，目前在红外和光学频率上也有广泛应用。然而，传统多维探针的能级并不适合研究量子材料。最近的技术进步使多维技术扩展到了太赫兹频率范围，而量子材料的集合激发通常就出现在太赫兹频率范围。本展望介绍了二维太赫兹光谱（2DTS）技术以及 2DTS 光谱所揭示的量子材料的独特物理特性，并选取了一些迅速扩展的实验和理论文献。虽然迄今为止二维太赫兹光谱主要应用于平衡态量子材料，但我们展望了它在理解非平衡态及其他动态态方面的应用。

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Multidimensional Terahertz Probes of Quantum Materials

Multidimensional spectroscopy has a long history originating from nuclear magnetic resonance, and has now found widespread application at infrared and optical frequencies as well. However, the energy scales of traditional multidimensional probes have been ill-suited for studying quantum materials. Recent technological advancements have now enabled extension of these multidimensional techniques to the terahertz frequency range, in which collective excitations of quantum materials are typically found. This Perspective introduces the technique of two-dimensional terahertz spectroscopy (2DTS) and the unique physics of quantum materials revealed by 2DTS spectra, accompanied by a selection of the rapidly expanding experimental and theoretical literature. While 2DTS has so far been primarily applied to quantum materials at equilibrium, we provide an outlook for its application towards understanding their dynamical non-equilibrium states and beyond.

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arXiv - PHYS - Superconductivity

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