Yu Zhiguo, Tu Donghe, Guan Huan, Tian Lifei, Jiang Lei, Li Zhiyong
Opt Express. 2025 Jan 13;33(1):1237-1248. doi: 10.1364/OE.540705.
High-speed silicon traveling-wave Mach-Zehnder modulators (MZMs) are key components to support optical fiber communication. However, one major challenge with all-silicon MZMs is to achieve efficient high-speed electro-optic (EO) modulation. The reported 3 dB bandwidth of silicon MZMs are generally below 70 GHz, with half-wave voltage ( ) around 5 V or larger, which can not support future 200 Gbaud data transmission. Here we break the voltage-bandwidth trade-off limit in silicon MZMs by replacing the doped silicon slab with CMOS compatible transparent electrodes. Benefit from the measured high conductivity, low extinction coefficient, and low refractive index of indium tin oxide (ITO) materials, the microwave dielectric loss of the traveling wave electrode can be greatly reduced. The bandwidth would potentially increase from 40 GHz to 168 GHz, while and optical insertion loss remains almost unchanged. According to Si/ITO interface contact states, three operating mode were found, corresponding to Si/ITO ohmic contact, schottky contact and hybrid schottky/ohmic contact, respectively. We comprehensively analysis the Si/ITO interface characteristic, establish a complete high frequency equivalent circuit model. Our proposed transparent electrodes will open a new window for the high-speed silicon photonics platform.
高速硅基行波马赫曾德尔调制器(MZMs)是支持光纤通信的关键组件。然而,全硅MZMs面临的一个主要挑战是实现高效的高速电光(EO)调制。报道的硅MZMs的3 dB带宽通常低于70 GHz,半波电压( )约为5 V或更高,这无法支持未来的200 Gbaud数据传输。在此,我们通过用CMOS兼容的透明电极取代掺杂硅平板,打破了硅MZMs中的电压 - 带宽权衡限制。受益于所测量的氧化铟锡(ITO)材料的高电导率、低消光系数和低折射率,行波电极的微波介电损耗可大大降低。带宽可能从40 GHz增加到168 GHz,而 和光插入损耗几乎保持不变。根据Si/ITO界面接触状态,发现了三种工作模式,分别对应于Si/ITO欧姆接触、肖特基接触和混合肖特基/欧姆接触。我们全面分析了Si/ITO界面特性,建立了完整的高频等效电路模型。我们提出的透明电极将为高速硅光子平台打开一扇新窗口。
