Electro-optic Modulator Based on Vanadium Dioxide Epsilon-Near-Zero Nanorods Embedded in Silicon Slot Waveguide

Nano select : open access Pub Date : 2023-03-20 DOI:10.1002/nano.202200258
G. Tanyi, C. Lim, R. Unnithan
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Abstract

We present an electro-optic modulator exploiting a metamaterial made of an array of vanadium dioxide nanorods operating in epsilon near zero regime as the active switching material in a silicon waveguide. The modulator takes advantage of the insulator-to-metal transition of vanadium dioxide together with epsilon near zero to achieve a robust modulation depth of 20.35 dB over a broad range of wavelengths. Using simulations, we demonstrate how the effective permittivity of metamaterial can be tuned to a near-zero value by varying the nanorod geometry. The results provide insight into the design of ultra-compact epsilon-near-zero modulators with high operation frequencies and low insertion losses.
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基于二氧化钒epsilon -近零纳米棒嵌入硅槽波导的电光调制器
我们提出了一种电光调制器,利用一种由二氧化钒纳米棒阵列组成的超材料作为硅波导中的有源开关材料,该材料在epsilon接近零状态下工作。该调制器利用了二氧化钒的绝缘体到金属的转变以及接近零的epsilon,在很宽的波长范围内实现了20.35 dB的稳健调制深度。通过模拟,我们展示了如何通过改变纳米棒的几何形状将超材料的有效介电常数调整到接近零的值。研究结果为设计具有高工作频率和低插入损耗的超紧凑型epsilon-近零调制器提供了新的思路。
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Nano select : open access
Nano select : open access
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