Interaction of in-plane Drude carrier with c-axis phonon in PdCoO2

IF 5.4 1区物理与天体物理 Q2 MATERIALS SCIENCE, MULTIDISCIPLINARY npj Quantum Materials Pub Date : 2023-12-16 DOI:10.1038/s41535-023-00607-1

Dongmin Seo, Gihyeon Ahn, Gaurab Rimal, Seunghyun Khim, Suk Bum Chung, A. P. Mackenzie, Seongshik Oh, S. J. Moon, Eunjip Choi

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Abstract

We performed polarized reflection and transmission measurements on the layered conducting oxide PdCoO₂ thin films. For the ab-plane, an optical peak near Ω ≈ 750 cm⁻¹ drives the scattering rate 1/τ(ω) and effective mass m^*(ω) of the Drude carrier to increase and decrease respectively for ω ≧ Ω. For the c-axis, a longitudinal optical phonon (LO) is present at Ω as evidenced by a peak in the loss function Im[−1/ε_c(ω)]. Further polarized measurements in different light propagation (q) and electric field (E) configurations indicate that the Peak at Ω results from an electron-phonon coupling of the ab-plane carrier with the c-LO phonon, which leads to the frequency-dependent 1/τ(ω) and m^*(ω). This unusual interaction was previously reported in high-temperature superconductors (HTSC) between a non-Drude, mid-infrared (IR) band and a c-LO. On the contrary, it is the Drude carrier that couples in PdCoO₂. The coupling between the ab-plane Drude carrier and c-LO suggests that the c-LO phonon may play a significant role in the characteristic ab-plane electronic properties of PdCoO₂, including the ultra-high dc-conductivity, phonon-drag, and hydrodynamic electron transport.

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钴酸钯中平面内德鲁德载流子与 c 轴声子的相互作用

我们对层状导电氧化物 PdCoO2 薄膜进行了偏振反射和透射测量。对于 ab 平面，Ω ≈ 750 cm-1 附近的光学峰促使德鲁德载流子的散射率 1/τ(ω) 和有效质量 m*(ω)在 ω ≧ Ω 时分别增加和减少。对于 c 轴，Ω 处存在纵向光学声子 (LO)，损耗函数 Im[-1/εc(ω)] 中的峰值证明了这一点。在不同的光传播（q）和电场（E）配置下进行的进一步偏振测量表明，Ω 处的峰值来自于 ab 平面载流子与 c-LO 声子的电子-声子耦合，这导致了与频率相关的 1/τ(ω) 和 m*(ω)。此前曾有报道称，在高温超导体（HTSC）中，非德鲁德中红外波段与 c-LO 之间存在这种不寻常的相互作用。相反，在钴酸钯中发生耦合的是德鲁德载流子。非平面德鲁德载流子与 c-LO 之间的耦合表明，c-LO 声子可能在钴酸钯的非平面电子特性（包括超高直流电导、声子rag和流体动力电子传输）中发挥了重要作用。

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来源期刊

npj Quantum Materials Materials Science-Electronic, Optical and Magnetic Materials

CiteScore

10.60

自引率

3.50%

发文量

107

审稿时长

6 weeks

期刊介绍： npj Quantum Materials is an open access journal that publishes works that significantly advance the understanding of quantum materials, including their fundamental properties, fabrication and applications.