Add to ORKGWe fabricate suspended single-mode optical waveguides and ring resonators in 3C silicon carbide (SiC) that operate at telecommunication wavelength, and leverage post-fabrication thermal annealing to minimize optical propagation losses. Annealed optical resonators yield quality factors of over 41,000, which corresponds to a propagation loss of 7 dB/cm, and is a significant improvement over the 24 dB/cm in the case of the non-annealed chip. This improvement is attributed to the enhancement of SiC crystallinity and a significant reduction of waveguide surface roughness, from 2.4 nm to below 1.7 nm. The latter is attributed to surface layer oxide growth during the annealing step. We confirm that the thermo-optic coefficient, an important parame...
The thermal tuning efficiency of silicon nitride devices is enhanced by about four times by integrat...
Color-center defects in silicon carbide promise opto-electronic quantum applications in several fiel...
Color-center defects in silicon carbide promise opto-electronic quantum applications in several fiel...
Silicon carbide (SiC) has become a promising optical material for quantum photonics and nonlinear ph...
The development of new photonic materials that combine diverse optical capabilities is needed to boo...
Integrated photonic platforms have proliferated in recent years, each demonstrating its unique stren...
Silicon carbide (SiC) is emerging rapidly in novel photonic applications thanks to its unique photon...
Silicon photonics is a rapidly growing field of technology that focuses on the use of silicon-based ...
High thermal conductivity electronic materials are critical components for high-performance electron...
Nanomechanical resonators with fundamental mode resonance frequencies in the Very-High Frequency (VH...
Nanomechanical resonators with fundamental mode resonance frequencies in the Very-High Frequency (VH...
SiC is an extremely promising material for nanoelectromechanical systems given its large Young's mod...
Silicon Carbide is a potentially useful compound for use in silicon based photonics because cubic si...
Owing to the advantages of high speed, low power consumption, and CMOS compatibility, silicon (Si) p...
Color-center defects in silicon carbide promise opto-electronic quantum applications in several fiel...
The thermal tuning efficiency of silicon nitride devices is enhanced by about four times by integrat...
Color-center defects in silicon carbide promise opto-electronic quantum applications in several fiel...
Color-center defects in silicon carbide promise opto-electronic quantum applications in several fiel...
Silicon carbide (SiC) has become a promising optical material for quantum photonics and nonlinear ph...
The development of new photonic materials that combine diverse optical capabilities is needed to boo...
Integrated photonic platforms have proliferated in recent years, each demonstrating its unique stren...
Silicon carbide (SiC) is emerging rapidly in novel photonic applications thanks to its unique photon...
Silicon photonics is a rapidly growing field of technology that focuses on the use of silicon-based ...
High thermal conductivity electronic materials are critical components for high-performance electron...
Nanomechanical resonators with fundamental mode resonance frequencies in the Very-High Frequency (VH...
Nanomechanical resonators with fundamental mode resonance frequencies in the Very-High Frequency (VH...
SiC is an extremely promising material for nanoelectromechanical systems given its large Young's mod...
Silicon Carbide is a potentially useful compound for use in silicon based photonics because cubic si...
Owing to the advantages of high speed, low power consumption, and CMOS compatibility, silicon (Si) p...
Color-center defects in silicon carbide promise opto-electronic quantum applications in several fiel...
The thermal tuning efficiency of silicon nitride devices is enhanced by about four times by integrat...
Color-center defects in silicon carbide promise opto-electronic quantum applications in several fiel...
Color-center defects in silicon carbide promise opto-electronic quantum applications in several fiel...