Add to ORKGSemiconductor III–V photonic crystal (PC) laser is regarded as a promising ultra-compact light source with unique advantages of ultralow energy consumption and small footprint for the next generation of Si-based on-chip optical interconnects. However, the significant material dissimilarities between III-V materials and Si are the fundamental roadblock for conventional monolithic III-V-on-silicon integration technology. Here, we demonstrate ultrasmall III-V PC membrane lasers monolithically grown on CMOS-compatible on-axis Si (001) substrates by using III-V quantum dots. The optically pumped InAs/GaAs quantum-dot PC lasers exhibit single-mode operation with an ultra-low threshold of ~0.6 μW and a large spontaneous emission coupling efficienc...
Summary form only given. III-V lasers grown on Si is the most promising solution to light sources on...
Electrically pumped on-chip C-band lasers provide additional flexibility for silicon photonics in th...
With continuously growing global data traffic, silicon (Si)-based photonic integrated circuits have ...
Semiconductor III–V photonic crystal (PC) laser is regarded as a promising ultra-compact light sourc...
Semiconductor III–V photonic crystal (PC) laser is regarded as a promising ultra-compact light sourc...
Semiconductor photonic crystal (PC) lasers are regarded as promising ultra-compact light sources wit...
Ultra-compact III-V nanolasers monolithically integrated on Si with ultra-low energy consumption and...
Direct integration of high-performance laser diodes on silicon will dramatically transform the world...
Monolithic integration of ultra-compact III-V light sources on silicon is promising for the Si-based...
Electrically pumped on-chip C-band lasers provide additional flexibility for silicon photonics in th...
Monolithic integration of III-V lasers with small footprint, good coherence, and low power consumpti...
Reliable, efficient electrically pumped silicon-based lasers would enable full integration of photon...
Direct integration of high-performance laser diodes on silicon will dramatically transform the world...
Direct integration of high-performance laser diodes on silicon will dramatically transform the world...
Direct integration of high-performance laser diodes on silicon will dramatically transform the world...
Summary form only given. III-V lasers grown on Si is the most promising solution to light sources on...
Electrically pumped on-chip C-band lasers provide additional flexibility for silicon photonics in th...
With continuously growing global data traffic, silicon (Si)-based photonic integrated circuits have ...
Semiconductor III–V photonic crystal (PC) laser is regarded as a promising ultra-compact light sourc...
Semiconductor III–V photonic crystal (PC) laser is regarded as a promising ultra-compact light sourc...
Semiconductor photonic crystal (PC) lasers are regarded as promising ultra-compact light sources wit...
Ultra-compact III-V nanolasers monolithically integrated on Si with ultra-low energy consumption and...
Direct integration of high-performance laser diodes on silicon will dramatically transform the world...
Monolithic integration of ultra-compact III-V light sources on silicon is promising for the Si-based...
Electrically pumped on-chip C-band lasers provide additional flexibility for silicon photonics in th...
Monolithic integration of III-V lasers with small footprint, good coherence, and low power consumpti...
Reliable, efficient electrically pumped silicon-based lasers would enable full integration of photon...
Direct integration of high-performance laser diodes on silicon will dramatically transform the world...
Direct integration of high-performance laser diodes on silicon will dramatically transform the world...
Direct integration of high-performance laser diodes on silicon will dramatically transform the world...
Summary form only given. III-V lasers grown on Si is the most promising solution to light sources on...
Electrically pumped on-chip C-band lasers provide additional flexibility for silicon photonics in th...
With continuously growing global data traffic, silicon (Si)-based photonic integrated circuits have ...