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Main Authors: Yang, Yuhan, Zhang, Yi, Shi, Yuhong, Yao, PengCheng, Fu, Hanyu, Khurgin, Jacob B., Hu, Fengrui, Zhu, Jia, Zhu, Shining, Zhou, Lin
Format: Preprint
Published: 2025
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Online Access:https://arxiv.org/abs/2512.01700
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author Yang, Yuhan
Zhang, Yi
Shi, Yuhong
Yao, PengCheng
Fu, Hanyu
Khurgin, Jacob B.
Hu, Fengrui
Zhu, Jia
Zhu, Shining
Zhou, Lin
author_facet Yang, Yuhan
Zhang, Yi
Shi, Yuhong
Yao, PengCheng
Fu, Hanyu
Khurgin, Jacob B.
Hu, Fengrui
Zhu, Jia
Zhu, Shining
Zhou, Lin
contents Plasmonics enables the miniaturization of photonic devices beyond the optical diffraction limit,yet its potential is hindered by inherently large ohmic losses. Hence, it is prudent to explore low loss alternatives to the current mainstay of plasmonics-the noble metals. In this work, we demonstrate the potential of potassium as a plasmonic material with intrinsically low losses in the optical region. The ultraflat, high quality potassium film, fabricated via a rapid slipping-assisted oxide-free crystallization process, achieves an experimentally observed optical damping rate of 3.7 meV,with a measured imaginary permittivity of approximately 0.1 across the entire visible to near-infrared range (400-2000 nm). Near field optical spectroscopic measurements further confirmed the reduced losses by revealing deeply subwavelength confinement of optical modes. This result enhances our understanding of the factors governing plasmonic materials and devices and establishes a new platform for exploring extreme light-matter interactions in a variety of plasmonic systems.
format Preprint
id arxiv_https___arxiv_org_abs_2512_01700
institution arXiv
publishDate 2025
record_format arxiv
spellingShingle Approaching the Low Optical Loss Limit of Plasmonics using Potassium Metals
Yang, Yuhan
Zhang, Yi
Shi, Yuhong
Yao, PengCheng
Fu, Hanyu
Khurgin, Jacob B.
Hu, Fengrui
Zhu, Jia
Zhu, Shining
Zhou, Lin
Optics
Plasmonics enables the miniaturization of photonic devices beyond the optical diffraction limit,yet its potential is hindered by inherently large ohmic losses. Hence, it is prudent to explore low loss alternatives to the current mainstay of plasmonics-the noble metals. In this work, we demonstrate the potential of potassium as a plasmonic material with intrinsically low losses in the optical region. The ultraflat, high quality potassium film, fabricated via a rapid slipping-assisted oxide-free crystallization process, achieves an experimentally observed optical damping rate of 3.7 meV,with a measured imaginary permittivity of approximately 0.1 across the entire visible to near-infrared range (400-2000 nm). Near field optical spectroscopic measurements further confirmed the reduced losses by revealing deeply subwavelength confinement of optical modes. This result enhances our understanding of the factors governing plasmonic materials and devices and establishes a new platform for exploring extreme light-matter interactions in a variety of plasmonic systems.
title Approaching the Low Optical Loss Limit of Plasmonics using Potassium Metals
topic Optics
url https://arxiv.org/abs/2512.01700