用SRR调制器和SPP互连的CMOS亚太赫兹片上通信

Yuan Liang, Hao Yu, Chang Yang, Nan Li, Xiuping Li, Xiong Liu, Junfeng Zhao, Wei Yang, Yuangang Wang
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引用次数: 4

摘要

提出了两种新型的超材料器件,包括分裂环谐振器(SRR)调制器和表面等离子激元(SPP)互连(包括SPP t线和耦合器),其芯片上集成的CMOS工作频率为140GHz。通过在t线上引入亚波长周期性波纹结构,建立了具有强局域表面波的SPP,从而实现了背对背放置的两条SPP t线之间的低串扰。此外,通过以相反的位置堆叠两个SRR单元,基于SRR的调制器表现为磁性超材料,在亚太赫兹下实现了23dB消光比的辐射损失显著降低。在65纳米CMOS中,所提出的表面波互连和SRR调制器在未来的亚太赫兹CMOS有线通信中显示出巨大的潜力。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
CMOS sub-THz on-chip communication with SRR modulator and SPP interconnect
Two novel metamaterial devices including Split Ring Resonator (SRR) modulator and Surface Plasmon Polariton (SPP) interconnect (including SPP T-line and coupler) are proposed with CMOS on-chip integration operated at 140GHz. By introducing sub-wavelength periodical corrugation structure onto T-line, SPP is established to propagate signals with strongly localized surface wave, which results in low crosstalk between two back-to-back placed SPP T-lines. Moreover, by stacking two SRR unit-cells with opposite placement, the SRR based modulator manifests itself as a magnetic metamaterial achieving significant reduction of radiation loss with 23dB extinction ratio at sub-THz. As explored in 65nm CMOS, the proposed surface-wave interconnects and SRR modulator have shown great potential for future sub-THz wireline communication in CMOS.
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