Sub-picosecond biphasic ultrafast all-optical switching in ultraviolet band

IF 6.5 2区 物理与天体物理 Q1 MATERIALS SCIENCE, MULTIDISCIPLINARY
Xiaoxiang Dong, Yonglin He, Tao Zhu, Renxian Gao, Lingyun Hu, Jiayu Li, Peiwen Ren, Jian-Feng Li, Ming-De Li, Zhilin Yang
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引用次数: 0

Abstract

Ultrafast all-optical control has been a subject of wide-spread attention as a method of manipulating optical fields using light excitation on extremely short time scales. As a fundamental form of ultrafast all-optical control, all-optical switching has achieved sub-picosecond switch speeds in the visible, infrared, and terahertz spectral regions. However, due to the lack of suitable materials, ultrafast all-optical control in the ultraviolet range remains in its early stages. We demonstrate sub-picosecond all-optical switching in the ultraviolet wavelength by designing a Si3N4-ITO Fabry–Pérot resonance aligns with the edge of the interband transition region of ITO. The response time of 500 fs achieved at a pump fluence as low as 0.17 mJ/cm2. Notably, unlike conventional binary switches (0, 1), this biphasic all-optical switch enables the modulation of optical intensity with positive, zero, and negative ΔR/R (0, 1, −1) at the same wavelength, all achieved with a switching speed of 680 fs at a pump fluence of 0.45 mJ/cm2. This work establishing a new pathway for all-optical control in the ultraviolet spectrum, the biphasic switch provides an extra degree of freedom for all-optical modulation.
紫外波段亚皮秒双相超快全光开关
超快全光学控制作为一种在极短的时间尺度内利用光激发来操纵光场的方法,一直受到广泛关注。作为超快全光控制的一种基本形式,全光开关已经在可见光、红外和太赫兹光谱区域实现了亚皮秒级的开关速度。然而,由于缺乏合适的材料,紫外范围的超快全光控制仍处于早期阶段。我们通过设计一种与 ITO 带间转变区边缘一致的 Si3N4-ITO 法布里-佩罗共振,展示了紫外波段亚皮秒级全光开关。在低至 0.17 mJ/cm2 的泵流下,响应时间达到 500 fs。值得注意的是,与传统的二进制开关(0、1)不同,这种双相全光开关能够在同一波长上以正值、零值和负值 ΔR/R(0、1、-1)调制光强度,所有这些都是在 0.45 mJ/cm2 的泵浦通量条件下以 680 fs 的开关速度实现的。这项工作为紫外光谱的全光控制开辟了一条新途径,双相开关为全光调制提供了额外的自由度。
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来源期刊
Nanophotonics
Nanophotonics NANOSCIENCE & NANOTECHNOLOGY-MATERIALS SCIENCE, MULTIDISCIPLINARY
CiteScore
13.50
自引率
6.70%
发文量
358
审稿时长
7 weeks
期刊介绍: Nanophotonics, published in collaboration with Sciencewise, is a prestigious journal that showcases recent international research results, notable advancements in the field, and innovative applications. It is regarded as one of the leading publications in the realm of nanophotonics and encompasses a range of article types including research articles, selectively invited reviews, letters, and perspectives. The journal specifically delves into the study of photon interaction with nano-structures, such as carbon nano-tubes, nano metal particles, nano crystals, semiconductor nano dots, photonic crystals, tissue, and DNA. It offers comprehensive coverage of the most up-to-date discoveries, making it an essential resource for physicists, engineers, and material scientists.
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