Geng Zihan, Xie Yiwei, Zhuang Leimeng, Burla Maurizio, Hoekman Marcel, Roeloffzen Chris G H, Lowery Arthur J
Opt Express. 2017 Oct 30;25(22):27635-27645. doi: 10.1364/OE.25.027635.
We report a photonic integrated circuit implementation of an optical clock multiplier, or equivalently an optical frequency comb filter. The circuit comprises a novel topology of a ring-resonator-assisted asymmetrical Mach-Zehnder interferometer in a Sagnac loop, providing a reconfigurable comb filter with sub-GHz selectivity and low complexity. A proof-of-concept device is fabricated in a high-index-contrast stoichiometric silicon nitride (SiN/SiO) waveguide, featuring low loss, small size, and large bandwidth. In the experiment, we show a very narrow passband for filters of this kind, i.e. a -3-dB bandwidth of 0.6 GHz and a -20-dB passband of 1.2 GHz at a frequency interval of 12.5 GHz. As an application example, this particular filter shape enables successful demonstrations of five-fold repetition rate multiplication of optical clock signals, i.e. from 2.5 Gpulses/s to 12.5 Gpulses/s and from 10 Gpulses/s to 50 Gpulses/s. This work addresses comb spectrum processing on an integrated platform, pointing towards a device-compact solution for optical clock multipliers (frequency comb filters) which have diverse applications ranging from photonic-based RF spectrum scanners and photonic radars to GHz-granularity WDM switches and LIDARs.
我们报道了一种光学时钟倍频器(或等效地,一种光学频率梳滤波器)的光子集成电路实现方案。该电路包括一种新颖拓扑结构的、位于萨格纳克环路中的环形谐振器辅助非对称马赫曾德尔干涉仪,可提供具有亚吉赫兹选择性和低复杂度的可重构梳状滤波器。一个概念验证器件是在高折射率对比度的化学计量比氮化硅(SiN/SiO)波导中制造的,具有低损耗、小尺寸和大带宽的特点。在实验中,我们展示了这类滤波器非常窄的通带,即在12.5吉赫兹的频率间隔下,-3分贝带宽为0.6吉赫兹,-20分贝通带为1.2吉赫兹。作为一个应用实例,这种特定的滤波器形状成功实现了光学时钟信号五倍重复率的倍频,即从2.5吉脉冲/秒到12.5吉脉冲/秒,以及从10吉脉冲/秒到50吉脉冲/秒。这项工作解决了集成平台上的梳状频谱处理问题,为光学时钟倍频器(频率梳滤波器)指向了一种器件紧凑的解决方案,这类器件具有从基于光子的射频频谱扫描仪和光子雷达到吉赫兹粒度的波分复用交换机和激光雷达等多种应用。
