Silicon Photonics: Fundamentals and Devices, by M. Jamal Deen and P.K.BasuNot Availabledoi:10.1080/00107514.2013.856940Alan ShoreK.Taylor & Francis GroupContemporary Physics
The application of deep learning to the design of photonic structures and devices is reviewed, including algorithm fundamentals. Wei Ma ,Zhaocheng Liu &Yongmin Liu Article|22 June 2020 Strain-engineered high-responsivity MoTe2photodetector for silicon photonic integrated circuits ...
Fundamentals of Silicon Photonics Silicon photonics (SiPh) is a material platform from which photonic integrated circuits (PICs) can be made. Silicon on insulator (SOI) wafers are used as the semiconductor substrate material, and most of the standard CMOS foundry manufacturing processes can ...
Something very surprising has been happening in photonics recently: the same foundries and processes that were developed to build transistors are being rep... Hochberg,M.,Harris,... - 《Solid State Circuits Magazine IEEE》 被引量: 53发表: 2013年 Silicon Photonics: Fundamentals and Devices Not ...
A Selection of Silicon Photonic Devices – Light Controlling Devices – Sources and Detectors References: 1. Silicon Photonics: An Introduction by Graham T. Reed and Andrew P. Knights 2. Fundamentals of Photonics by Bahaa E. A. Saleh and Malvin Carl Teich 3. Silicon Photonics Research, Intel ...
the performance of nonlinear silicon photonic devices remains fundamentally limited at the telecom wavelength region due to the two photon absorption (TPA) and related effects. In this work, we propose an alternative CMOS-compatible platform, based on silicon-rich silicon nitride that can overcome thi...
Silicon Fundamentals for Photonics Applications David J. Lockwood and Lorenzo Pavesi Pages 1-50 Integrated Photonics Mario Paniccia, Mike Morse, Michael Salib Pages 51-88 Monolithic Silicon Microphotonics L. C. Kimerling, L. Dal Negro, S. Saini, Y. Yi, D. Ahn, S. Akiyama et al...
In Figure 2, we illustrate the fabrication process of the subwavelength structured silicon devices, which is widely used in the silicon photonics field. It starts with an SOI wafer, which has a 220-nm-thick silicon layer on top, a 3-μm-thick buried oxide layer in the middle, and a ...
Fundamentals of polarization management in silicon photonics Understanding the relevant physical phenomena is important for gaining insight into polarization-managing devices. This section introduces waveguide modes16, birefringence12, non-reciprocal phenomena14,17, and Faraday rotation18,19. Their physics is...
Two-dimensional materials (2DMs) have been used widely in constructing photodetectors (PDs) because of their advantages in flexible integration and ultrabroad operation wavelength range. Specifically, 2DM PDs on silicon have attracted much attention beca