Add to ORKGIn this thesis, the research is described for realizing hybrid modules where silicon can be used to effectively improve different functionalities of the photonic device. Several aspect are detailed, spanning from the techology to implement the hybrid modules to the description of some particular photonic devices that might improve their performance when mounted onto a silicon carrier. Also, some considerations about different amplifier architectures for optical communications are presented and completed with practical implementations in an advanced university bipolar process
Silicon Photonics taps on the volume manufacturing capability of traditional silicon manufacturing t...
Silicon Photonics is a field that has seen rapid growth and dramatic changes in the past 5 years. Ac...
Silicon photonics technology, which has the DNA of silicon electronics technology, promises to provi...
In this thesis, the research is described for realizing hybrid modules where silicon can be used to ...
Silicon photonics offer large bandwidths and low-loss delay, while integrated electronics can provid...
Silicon photonics offers the possibility of a reduction in size weight and power for many optical sy...
A number of important breakthroughs in the past decade have focused attention on Si as a photonic pl...
Abstract: We describe the design and results of several hybrid silicon devices that combine benefits...
Thesis (Ph.D.)--University of Washington, 2014Photonic integration in silicon is an extremely promis...
This review paper reports on recent patents regarding integrated optical active devices, namely ampl...
The hybridization of optical, optoelectronic and electronic components on a silicon submount (silico...
Abstract—In this paper, we review the current status of the hy-brid silicon photonic integration pla...
Silicon photonics is a vibrant technology area in which photonic integrated circuits and components ...
Abstract — Silicon photonics is the integration of integrated optics and photonics IC technologies i...
Silicon photonics technology, which has the DNA of silicon electronics technology, promises to provi...
Silicon Photonics taps on the volume manufacturing capability of traditional silicon manufacturing t...
Silicon Photonics is a field that has seen rapid growth and dramatic changes in the past 5 years. Ac...
Silicon photonics technology, which has the DNA of silicon electronics technology, promises to provi...
In this thesis, the research is described for realizing hybrid modules where silicon can be used to ...
Silicon photonics offer large bandwidths and low-loss delay, while integrated electronics can provid...
Silicon photonics offers the possibility of a reduction in size weight and power for many optical sy...
A number of important breakthroughs in the past decade have focused attention on Si as a photonic pl...
Abstract: We describe the design and results of several hybrid silicon devices that combine benefits...
Thesis (Ph.D.)--University of Washington, 2014Photonic integration in silicon is an extremely promis...
This review paper reports on recent patents regarding integrated optical active devices, namely ampl...
The hybridization of optical, optoelectronic and electronic components on a silicon submount (silico...
Abstract—In this paper, we review the current status of the hy-brid silicon photonic integration pla...
Silicon photonics is a vibrant technology area in which photonic integrated circuits and components ...
Abstract — Silicon photonics is the integration of integrated optics and photonics IC technologies i...
Silicon photonics technology, which has the DNA of silicon electronics technology, promises to provi...
Silicon Photonics taps on the volume manufacturing capability of traditional silicon manufacturing t...
Silicon Photonics is a field that has seen rapid growth and dramatic changes in the past 5 years. Ac...
Silicon photonics technology, which has the DNA of silicon electronics technology, promises to provi...