Integration of plasmonics into nanoelectronic circuits

Bai P.; Chu H.S.; Gu M.; Kurniawan O.; Li E.

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Integration of plasmonics into nanoelectronic circuits

机译：将等离激元集成到纳米电子电路中

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Plasmonic waveguides are proposed to transmit information optically from one electronic component to another in integrated nanoelectronic circuits. A metal-insulator-metal (MIM) plasmonic waveguide, rather than a traditional dielectric waveguide or an electric wire, is used for data transmission. The MIM plasmonic waveguide confines plasmonic (electromagnetic) waves to a dielectric slot with a cross-section of 50 nm × 50 nm, and propagates them close to the speed of light. Two nanorods that form a nanoantenna are employed to receive the optical power from the waveguide, and localize as well as concentrate the received power in the proximity around the two nanorods. The localized optical power is converted to electric signals by a nanoscale plasmonics-to-electronics converter, which has a nanosized active volume and a bandwidth of up to 1 THz. Both the plasmonic waveguide and the converter have nanoscale dimensions comparable to those of modern nanoelectronic counterparts. The proposed method could be used to improve the performance of existing nanoelectronic systems by exploiting the strength of optics.

机译：提出了等离子体波导管，以在集成纳米电子电路中将信息从一个电子组件光学传输到另一电子组件。金属绝缘体金属（MIM）等离子体波导，而不是传统的介质波导或电线，用于数据传输。 MIM等离子体波导将等离子体（电磁）波限制在横截面为50 nm×50 nm的电介质槽中，并以接近光速的速度传播。形成纳米天线的两个纳米棒用于接收来自波导的光功率，并将接收到的功率集中并集中在两个纳米棒附近。纳米级等离子-电子转换器将本地化的光功率转换为电信号，该转换器具有纳米级的有效体积和高达1 THz的带宽。等离子体波导和转换器都具有与现代纳米电子技术相当的纳米尺寸。通过利用光学的优势，所提出的方法可用于改善现有纳米电子系统的性能。

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《Physica, B. Condensed Matter》 |2010年第14期|共4页
作者
Bai P.; Chu H.S.; Gu M.; Kurniawan O.; Li E.;
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正文语种 eng
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关键词
Nanoantenna; Plasmonic converter; Plasmonics; Subwavelength waveguide;

机译：纳米天线;等离子转换器;等离子;亚波长波导;

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专利

1. Integration of plasmonics into nanoelectronic circuits [J] . Bai P., Chu H.S., Gu M., Physica, B. Condensed Matter . 2010,第14期

机译：将等离激元集成到纳米电子电路中
2. Integration of plasmonics into nanoelectronic circuits [J] . Bai P., Chu H.S., Gu M., Physica, B. Condensed Matter . 2010,第14期

机译：将等离激元集成到纳米电子电路中
3. The Design and Analysis of Monolithic Integration of CMOS-Compatible Plasmonic Waveguides for On-Chip Electronic–Photonic Integrated Circuits [J] . Kim, J.T., Park, Journal of Lightwave Technology . 2013,第18期

机译：片上电子-光子集成电路CMOS兼容的等离子波导管的单片集成设计与分析
4. Integration of 3D plasmonic devices with silicon-on-insulator-based optical circuitry [C] . Ruoxi Yang, Zhaolin Lu Optoelectronic integrated circuits XIV. . 2012

机译：3D等离子体设备与基于绝缘体上硅的光学电路的集成
5. Towards Photonic-Plasmonic Integrated Circuits: Study and Fabrication Of Electrically-Pumped Plasmonic Nano-Laser. [D] . Hseih, Chunhan Michael. 2016

机译：走向光子-肺集成电路：电泵激等离子体纳米激光的研究与制造。
6. Squeezing effects applied in nonclassical superposition states for quantum nanoelectronic circuits [O] . Jeong Ryeol Choi 2017

机译：量子纳米电子电路在非经典叠加态中的压缩效应
7. RTD/CMOS Nanoelectronic Circuits: Thin-Film InP-Based Resonant Tunneling Diodes Integrated with CMOS Circuits [O] . E. Beam 2008

机译：RTD / CMOS纳米电子电路：集成了CMOS电路的基于InP的薄膜谐振隧道二极管
8. Nanoelectronic Initiative - GHz & THz Amplifier and Oscillator Circuits With ID Nanoscale Devices for Multispectral Heterodyning Detector Arrays [R] . Ham, D., Li, X., Andress, W. 2009

机译：纳米电子计划 - 具有用于多光谱外差检测器阵列的ID纳米级器件的GHz和THz放大器和振荡器电路

Integration of plasmonics into nanoelectronic circuits

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