Temperature-dependent optical properties of low-loss plasmonic SrMoO3 thin films

Qian Peng; Yadong Qiao; Yang Liu

doi:10.3788/COL202321.053601

Journals >Chinese Optics Letters >Volume 21 >Issue 5 >Page 053601 > Article

Chinese Optics Letters
Vol. 21, Issue 5, 053601 (2023)

Temperature-dependent optical properties of low-loss plasmonic SrMoO₃ thin films

Qian Peng^1、2, Yadong Qiao³, and Yang Liu^1、*

Author Affiliations

¹School of Physics and Electronic-Information Engineering, Hubei Engineering University, Xiaogan 432000, China

²School of Materials and Architectural Engineering, Guizhou Normal University, Guiyang 550025, China

³School of Mathematics and Physics, University of Science and Technology Beijing, Beijing 100083, China

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DOI: 10.3788/COL202321.053601 Cite this Article Set citation alerts

Qian Peng, Yadong Qiao, Yang Liu. Temperature-dependent optical properties of low-loss plasmonic SrMoO₃ thin films[J]. Chinese Optics Letters, 2023, 21(5): 053601 Copy Citation Text

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Abstract

{SrMoO}_{3}

(SMO) thin films are deposited on

{LaAlO}_{3}

substrates by magnetron sputtering. The effects of ambient temperature on the structural, electrical, and optical properties of the films are investigated. As the temperature increases from 23°C to 800°C, the SMO film exhibits high crystallinity and low electrical resistivity, and the real part of dielectric functions becomes less negative in the visible and near-IR wavelength range, and the epsilon near zero (ENZ) wavelength increases from 460 nm to 890 nm. The optical loss of the SMO film is significantly lower than that of Au, and its plasmonic performance is comparable to or even higher than TiN in the temperature range of 23°C to 600°C. These studies are critical for the design of high-temperature SMO-based plasmonic devices.

Keywords

optical losses plasmonic materials strontium molybdate temperature thin films

ε (ω) = ε_{b} - \frac{ω_{p}^{2}}{ω^{2} + i ω Γ_{D}} + \sum_{j = 1}^{2} \frac{f_{j} ω_{0 j}^{2}}{ω_{0 j}^{2} - ω^{2} - i ω γ_{j}},

(1)

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ε_{D} (ω) = ε_{b} - \frac{ω_{p}^{2}}{ω^{2} + i ω Γ_{D}} = ε_{b} - \frac{ω_{p}^{2}}{ω^{2} + Γ_{D}^{2}} + i \frac{- ω_{p}^{2} Γ_{D}}{ω^{3} + {ωΓ}_{D}^{2}} .

(2)

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ω_{p}^{2} = \frac{n e^{2}}{ε_{0} m^{*}},

(3)

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Qian Peng, Yadong Qiao, Yang Liu. Temperature-dependent optical properties of low-loss plasmonic SrMoO₃ thin films[J]. Chinese Optics Letters, 2023, 21(5): 053601

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