加拿大论文代写:硅光子学简介分析
硅光子学是在同一芯片上实现大规模电子和光子电路的领域。它正成为光子电路集成的最有前途的候选方案。它为许多类型的应用支持低成本的光电解决方案。它是利用硅作为光介质研究光的产生、传输和探测等行为。
加拿大论文代写:硅光子学简介分析
硅光子学是以光介质的形式利用硅对光子系统的应用和研究。在微光子系统的组成部分中,主要存在一种精确到亚微米的硅图样。这些操作是在红外范围内进行的,通常波长为1.55微米,在大多数光纤通信系统中使用。在典型的意义上,硅将是最顶层的硅层称为绝缘体上的硅。
然而,硅并不是光学电路中唯一使用的材料。大多数光学元件是由iii-v基化合物组成,如磷化铟(InP)和砷化镓(砷化镓)。
加拿大论文代写:硅光子学简介分析
Silicon Photonics is the field for realising large-scale electronic and photonic circuits on the same chip. It is becoming the most promising candidate for photonics circuit integration. It supports low cost optoelectronic solutions for a number of types of applications. It is the study of the behaviour of light such as generation, transmission and detection using silicon as the optical medium.
加拿大论文代写:硅光子学简介分析
Silicon photonics is the application and study of photonic systems with the utilization of silicon in the form of optical medium. There is mostly a pattern of silicon with precision of sub- micrometer within the components of microphotonic systems. The operations are conducting within the infrared, commonly at the wavelength of 1.55 micrometer utilized in majority of the systems of fibre optic telecommunication. In the typical sense, the silicon will be the top- most layer of silica referred as silicon over insulator.
However, Silicon is not the only material used in optical circuits. Most optical components are made from group iii-v elements based compounds such as indium phosphide (InP) and gallium arsenide (GaAs).
