Direct spatial-temporal discrimination of modes in a photonic lightwave circuit using photon scanning tunnelling microscopy

S. Berry, J. Gates, W. Brocklesby
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引用次数: 1

Abstract

Multi-mode photonic lightwave circuits (PLCs) provide new avenues for extending the performance of single mode systems. As an example, they can potentially provide increased bandwidth by multiplexing information into different waveguide modes[1]. For practical applications of multi-mode PLCs to be developed, a measurement technique is required to investigate detailed mode profiles and propagation constants in complex circuits. Photon scanning tunnelling microscopy (PSTM) provides a means of experimentally tracking the femtosecond inter-modal delays observed in PLCs with the ability to discriminate modes by their spatial profiles inside the waveguide.
利用光子扫描隧穿显微镜对光子光波电路中模式的直接时空分辨
多模光子光波电路(plc)为扩展单模系统的性能提供了新的途径。例如,它们可以通过将信息多路复用到不同的波导模式[1]来潜在地提供增加的带宽。为了开发多模plc的实际应用,需要一种测量技术来研究复杂电路中的详细模式分布和传播常数。光子扫描隧道显微镜(PSTM)提供了一种实验跟踪飞秒模间延迟的方法,该方法在plc中观察到,能够通过波导内的空间轮廓来区分模式。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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