We demonstrate an alignment-tolerant backside coupling interface in the O-band for silicon photonics by generating an optimized through-substrate (downward) directionality beam from a TE-mode grating coupler and hybrid integrating the chip with backside silicon microlenses to achieve expanded beam collimation. The key advantage of using such an expanded beam interface is an increased coupling tolerance to lateral and longitudinal misalignment. A 34 mu m beam diameter was achieved over a combined substrate thickness of 630 mu m which was then coupled to a thermally expanded core single-mode fiber to investigate the tolerances. A 1-dB fiber-to-microlens lateral alignment tolerance of 14 mu m and an angular alignment tolerance of 1 degrees was...
We design an optical interface system for vertical coupling between vertical-cavity surface-emitting...
In this paper, we review our work on efficient interfaces between a silicon-on-insulator photonic IC...
In this presentation, we give an overview of our recent progress in exploiting direct-write two-phot...
We demonstrate an alignment-tolerant backside coupling interface in the O-band for silicon photonics...
To increase the manufacturing throughput and lower the cost of silicon photonics packaging, an align...
Directly interfacing a photonic integrated circuit allows at best an alignment tolerance of a few mi...
Development of an efficient and densely integrated optical coupling interface for silicon photonics ...
DAS Photonics S.L., Camino de Vera s/n 46022 Valencia (Spain) Efficient packaging in silicon photoni...
Single-mode optical coupling between fiber and photonic integrated circuit (PIC) requires precision ...
Over the last 20 years, silicon photonics has revolutionized the field of integrated optics, providi...
© 2018 Dr. Md AsaduzzamanIn recent years silicon photonics has become a considerable mainstream tech...
In this article we describe a cost-effective approach for hybrid laser integration, in which vertica...
Over the last 20 years, silicon photonics has revolutionized the field of integrated optics, providi...
The large-scale photonic integration of microring resonators in three dimensions made possible by re...
Silicon photonics is a new technology that should at least enable electronics and optics to be integ...
We design an optical interface system for vertical coupling between vertical-cavity surface-emitting...
In this paper, we review our work on efficient interfaces between a silicon-on-insulator photonic IC...
In this presentation, we give an overview of our recent progress in exploiting direct-write two-phot...
We demonstrate an alignment-tolerant backside coupling interface in the O-band for silicon photonics...
To increase the manufacturing throughput and lower the cost of silicon photonics packaging, an align...
Directly interfacing a photonic integrated circuit allows at best an alignment tolerance of a few mi...
Development of an efficient and densely integrated optical coupling interface for silicon photonics ...
DAS Photonics S.L., Camino de Vera s/n 46022 Valencia (Spain) Efficient packaging in silicon photoni...
Single-mode optical coupling between fiber and photonic integrated circuit (PIC) requires precision ...
Over the last 20 years, silicon photonics has revolutionized the field of integrated optics, providi...
© 2018 Dr. Md AsaduzzamanIn recent years silicon photonics has become a considerable mainstream tech...
In this article we describe a cost-effective approach for hybrid laser integration, in which vertica...
Over the last 20 years, silicon photonics has revolutionized the field of integrated optics, providi...
The large-scale photonic integration of microring resonators in three dimensions made possible by re...
Silicon photonics is a new technology that should at least enable electronics and optics to be integ...
We design an optical interface system for vertical coupling between vertical-cavity surface-emitting...
In this paper, we review our work on efficient interfaces between a silicon-on-insulator photonic IC...
In this presentation, we give an overview of our recent progress in exploiting direct-write two-phot...