Recent years have witnessed an increasing research interest in hybrid lasers based on evanescent coupling between III-V materials and silicon waveguides. Recently reported state-of-the-art devices utilize molecular die-to-wafer bonding of III-V epitaxial layers to silicon waveguides, which imposes strict requirements on the cleanliness and quality of the bonded surfaces. In this paper, we propose a hybrid III-V/silicon laser based on adhesive DVS-BCB bonding providing less strict surface quality requirements and a fabrication procedure suitable for large-scale production. The general layout of the device and its simulated properties are presented and discussed
In this paper we show that using a DVS-BCB adhesive bonding process compact heterogeneously integrat...
In this paper we show that using a DVS-BCB adhesive bonding process compact heterogeneously integrat...
Abstract Silicon evanescent lasers and amplifiers have been demonstrated utilizing low temperature w...
Abstract: We present an evanescently-coupled, hybrid III-V/Silicon Fabry-Perot laser based on adhesi...
Abstract: The heterogeneous integration of III-V components and silicon-on-insulator waveguide circu...
The heterogeneous integration of III-V semiconductor lasers on a silicon waveguide platform using DV...
Abstract—An evanescently coupled, hybrid III–V/Silicon Fabry–Pérot laser based on adhesive divinyl s...
We report the use of both direct and polymer bonding for the fabrication of Silicon/III-V evanescent...
A hybrid evanescently coupled III-V/silicon distributed-feedback laser with an integrated monitor ph...
The heterogeneous integration of III-V semiconductor lasers on a silicon waveguide platform using DV...
A hybrid evanescently coupled III-V/silicon distributed-feedback laser with an integrated monitor ph...
In this paper we show that using a DVS-BCB adhesive bonding process compact heterogeneously integrat...
In this paper we show that using a DVS-BCB adhesive bonding process compact heterogeneously integrat...
In this paper we show that using a DVS-BCB adhesive bonding process compact heterogeneously integrat...
In this paper we show that using a DVS-BCB adhesive bonding process compact heterogeneously integrat...
In this paper we show that using a DVS-BCB adhesive bonding process compact heterogeneously integrat...
In this paper we show that using a DVS-BCB adhesive bonding process compact heterogeneously integrat...
Abstract Silicon evanescent lasers and amplifiers have been demonstrated utilizing low temperature w...
Abstract: We present an evanescently-coupled, hybrid III-V/Silicon Fabry-Perot laser based on adhesi...
Abstract: The heterogeneous integration of III-V components and silicon-on-insulator waveguide circu...
The heterogeneous integration of III-V semiconductor lasers on a silicon waveguide platform using DV...
Abstract—An evanescently coupled, hybrid III–V/Silicon Fabry–Pérot laser based on adhesive divinyl s...
We report the use of both direct and polymer bonding for the fabrication of Silicon/III-V evanescent...
A hybrid evanescently coupled III-V/silicon distributed-feedback laser with an integrated monitor ph...
The heterogeneous integration of III-V semiconductor lasers on a silicon waveguide platform using DV...
A hybrid evanescently coupled III-V/silicon distributed-feedback laser with an integrated monitor ph...
In this paper we show that using a DVS-BCB adhesive bonding process compact heterogeneously integrat...
In this paper we show that using a DVS-BCB adhesive bonding process compact heterogeneously integrat...
In this paper we show that using a DVS-BCB adhesive bonding process compact heterogeneously integrat...
In this paper we show that using a DVS-BCB adhesive bonding process compact heterogeneously integrat...
In this paper we show that using a DVS-BCB adhesive bonding process compact heterogeneously integrat...
In this paper we show that using a DVS-BCB adhesive bonding process compact heterogeneously integrat...
Abstract Silicon evanescent lasers and amplifiers have been demonstrated utilizing low temperature w...