Naruse Makoto, Kawazoe Tadashi, Sangu Suguru, Kobayashi Kiyoshi, Ohtsu Motoichi
Opt Express. 2006 Jan 9;14(1):306-13. doi: 10.1364/opex.14.000306.
Ultrahigh-density data-broadcasting optical interconnects are proposed and experimentally demonstrated using optical near-field interactions between quantum dots, which cannot be driven by far-field light, allowing sub-wavelength device operation, and far-field excitation for global interconnects. The proposed scheme helps to solve interconnection difficulties experienced in nano-scale device arrays since components for individually guiding light from external systems are not required. Combining the broadcasting mechanism with switching and summation architectures will allow nano-scale integration of parallel processing devices.
利用量子点之间的光学近场相互作用,提出并通过实验证明了超高密度数据广播光学互连,这种相互作用不能由远场光驱动,从而实现亚波长器件操作以及用于全局互连的远场激发。所提出的方案有助于解决纳米级器件阵列中遇到的互连难题,因为不需要用于单独引导来自外部系统光的组件。将广播机制与切换和求和架构相结合,将实现并行处理设备的纳米级集成。
