各向异性声子动力学在依赖螺旋的超快光激发的狄拉克半金属 PtTe2 薄膜中的实现。

IF 19.4 1区 物理与天体物理 Q1 Physics and Astronomy
Ziyang Li, Yequan Chen, Anke Song, Jinzhong Zhang, Rong Zhang, Zongzhi Zhang, Xuefeng Wang
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引用次数: 0

摘要

相干声子具有反映和控制物质物理性质的非凡能力,因此在凝聚态物理学中引起了广泛关注。然而,在拓扑系统中,相干声子与其他微观粒子在超快时间尺度上的相互作用研究仍然是一个活跃而悬而未决的领域。在这里,我们利用超快光学泵浦探针光谱法展示了相干光学声子(COP)在狄拉克半金属 PtTe2 薄膜中的能量转移。具体来说,依赖螺旋度的光驱动各向异性 COP 信号通过角动量传递揭示了它们与光激发的各向异性自旋极化电子之间的直接联系。此外,我们观察到 COP 振荡频率和衰减率随着温度的升高而显著降低,这分别是 COP 耗散过程中的非谐波声子-声子散射和电子-声子散射造成的。我们的工作为揭示狄拉克半金属中的相干声子在光电子学和光自旋电子学中的潜在应用铺平了道路。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
Anisotropic phonon dynamics in Dirac semimetal PtTe2 thin films enabled by helicity-dependent ultrafast light excitation.

Coherent phonons have aroused considerable attention in condensed matter physics owing to their extraordinary capacity of reflecting and controlling the physical properties of matter. However, the investigation on the interaction between coherent phonons and other microscopic particles on the ultrafast timescale within topological systems continues to be an active and unresolved area. Here, we show the energy transfer of coherent optical phonons (COP) in Dirac semimetal PtTe2 thin films using ultrafast optical pump-probe spectroscopy. Specifically, the helicity-dependent light-driven anisotropic COP signals disclose their direct connection with the light-excited anisotropic spin-polarized electrons via an angular momentum transfer. Furthermore, we observe the notable decreases in the COP oscillation frequency and the decay rate with increasing temperatures due to the anharmonic phonon-phonon scattering and electron-phonon scattering in the COP dissipation process, respectively. Our work paves the way for uncovering the coherent phonons in Dirac semimetals for the potential applications in optoelectronics and opto-spintronics.

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来源期刊
CiteScore
27.00
自引率
2.60%
发文量
331
审稿时长
20 weeks
期刊介绍: Light: Science & Applications is an open-access, fully peer-reviewed publication.It publishes high-quality optics and photonics research globally, covering fundamental research and important issues in engineering and applied sciences related to optics and photonics.
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