Precisely tunable and predictable index-near-zero modes across continuous and broad bands

Panpan He; Yun Shen; Sanshui Xiao; Lujun Hong; Yun You; Kosmas L. Tsakmakidis; Yamei Luo; Jie Xu

doi:10.1063/5.0209239

Precisely tunable and predictable index-near-zero modes across continuous and broad bands

Panpan He, Yun Shen, Sanshui Xiao, Lujun Hong, Yun You, Kosmas L. Tsakmakidis, Yamei Luo, Jie Xu

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Abstract

In the past two decades, index-near-zero (INZ) modes and materials, with their spatial phase invariance and super coupling, gained increasing attention for applications in all-optical/quantum computing and communication. However, the modulation of INZ modes is typically complex and discontinuous, often achieved through intricate experimental methods, thereby hindering their widespread application. Here, we propose two deep-subwavelength magneto-optical one-way waveguides and discover three broadband tunable INZ modes, exhibiting predictable behavior dependent on the external magnetic field (EMF). By utilizing these INZ modes, we design broadband tunable all-optical phase modulators through straightforward EMF control. The tunable and predictable nature of INZ modes, combined with deep-subwavelength phase modulators, may advance miniaturized all-optical communication and computation.

Original language	English
Article number	161109
Journal	Applied Physics Letters
Volume	124
Issue number	16
Number of pages	7
ISSN	0003-6951
DOIs	https://doi.org/10.1063/5.0209239
Publication status	Published - 2024

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abstract = "In the past two decades, index-near-zero (INZ) modes and materials, with their spatial phase invariance and super coupling, gained increasing attention for applications in all-optical/quantum computing and communication. However, the modulation of INZ modes is typically complex and discontinuous, often achieved through intricate experimental methods, thereby hindering their widespread application. Here, we propose two deep-subwavelength magneto-optical one-way waveguides and discover three broadband tunable INZ modes, exhibiting predictable behavior dependent on the external magnetic field (EMF). By utilizing these INZ modes, we design broadband tunable all-optical phase modulators through straightforward EMF control. The tunable and predictable nature of INZ modes, combined with deep-subwavelength phase modulators, may advance miniaturized all-optical communication and computation.",

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AU - He, Panpan

AU - Shen, Yun

AU - Xiao, Sanshui

AU - Hong, Lujun

AU - You, Yun

AU - Tsakmakidis, Kosmas L.

AU - Luo, Yamei

AU - Xu, Jie

PY - 2024

Y1 - 2024

N2 - In the past two decades, index-near-zero (INZ) modes and materials, with their spatial phase invariance and super coupling, gained increasing attention for applications in all-optical/quantum computing and communication. However, the modulation of INZ modes is typically complex and discontinuous, often achieved through intricate experimental methods, thereby hindering their widespread application. Here, we propose two deep-subwavelength magneto-optical one-way waveguides and discover three broadband tunable INZ modes, exhibiting predictable behavior dependent on the external magnetic field (EMF). By utilizing these INZ modes, we design broadband tunable all-optical phase modulators through straightforward EMF control. The tunable and predictable nature of INZ modes, combined with deep-subwavelength phase modulators, may advance miniaturized all-optical communication and computation.

AB - In the past two decades, index-near-zero (INZ) modes and materials, with their spatial phase invariance and super coupling, gained increasing attention for applications in all-optical/quantum computing and communication. However, the modulation of INZ modes is typically complex and discontinuous, often achieved through intricate experimental methods, thereby hindering their widespread application. Here, we propose two deep-subwavelength magneto-optical one-way waveguides and discover three broadband tunable INZ modes, exhibiting predictable behavior dependent on the external magnetic field (EMF). By utilizing these INZ modes, we design broadband tunable all-optical phase modulators through straightforward EMF control. The tunable and predictable nature of INZ modes, combined with deep-subwavelength phase modulators, may advance miniaturized all-optical communication and computation.

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M3 - Journal article

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JO - Applied Physics Letters

JF - Applied Physics Letters

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Precisely tunable and predictable index-near-zero modes across continuous and broad bands

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