\u3cp\u3eA comparative study of two different Photonic Integrated Circuits (PICs) structures for continuous-wave generation of millimeter-wave (MMW) signals is presented, each using a different approach. One approach is optical heterodyning, using an integrated dual-wavelength laser source based on Arrayed Waveguide Grating. The other is based on ModeLocked Laser Diodes (MLLDs). A novel building block-Multimode Interference Reflectors (MIRs)-is used to integrate on-chip both structures, without need of cleaved facets to define the laser cavity. This fact enables us to locate any of these structures at any location within the photonic chip. As will be shown, the MLLD structure provides a simple source for low frequencies. Higher frequencies ...
Over the last few years wireless link data traffic has drastically increased due to a change in the ...
Millimeter-waves (30-300 GHz) have interest due to the wide bandwidths available for carrying inform...
Millimeter-waves (30-300 GHz) have interest due to the wide bandwidths available for carrying inform...
A comparative study of two different Photonic Integrated Circuits (PICs) structures for continuous-w...
A comparative study of two different Photonic Integrated Circuits (PICs) structures for continuous-w...
A comparative study of two different Photonic Integrated Circuits (PICs) structures for continuous-w...
A comparative study of two different Photonic Integrated Circuits (PICs) structures for continuous-w...
We present two different on-chip photonic integrated circuit (PIC) structures for continuous-wave ge...
We present two different on-chip photonic integrated circuit (PIC) structures for continuous-wave ge...
We present two different on-chip photonic integrated circuit (PIC) structures for continuous-wave ge...
We present two different photonic integrated circuits aimed to generate electrical signals within th...
We present two different photonic integrated circuits aimed to generate electrical signals within th...
We present two different on-chip photonic integrated circuit (PIC) structures for continuous-wave ge...
Millimeter-waves (30-300 GHz) have interest due to the wide bandwidths available for carrying inform...
Over the last few years wireless link data traffic has drastically increased due to a change in the ...
Over the last few years wireless link data traffic has drastically increased due to a change in the ...
Millimeter-waves (30-300 GHz) have interest due to the wide bandwidths available for carrying inform...
Millimeter-waves (30-300 GHz) have interest due to the wide bandwidths available for carrying inform...
A comparative study of two different Photonic Integrated Circuits (PICs) structures for continuous-w...
A comparative study of two different Photonic Integrated Circuits (PICs) structures for continuous-w...
A comparative study of two different Photonic Integrated Circuits (PICs) structures for continuous-w...
A comparative study of two different Photonic Integrated Circuits (PICs) structures for continuous-w...
We present two different on-chip photonic integrated circuit (PIC) structures for continuous-wave ge...
We present two different on-chip photonic integrated circuit (PIC) structures for continuous-wave ge...
We present two different on-chip photonic integrated circuit (PIC) structures for continuous-wave ge...
We present two different photonic integrated circuits aimed to generate electrical signals within th...
We present two different photonic integrated circuits aimed to generate electrical signals within th...
We present two different on-chip photonic integrated circuit (PIC) structures for continuous-wave ge...
Millimeter-waves (30-300 GHz) have interest due to the wide bandwidths available for carrying inform...
Over the last few years wireless link data traffic has drastically increased due to a change in the ...
Over the last few years wireless link data traffic has drastically increased due to a change in the ...
Millimeter-waves (30-300 GHz) have interest due to the wide bandwidths available for carrying inform...
Millimeter-waves (30-300 GHz) have interest due to the wide bandwidths available for carrying inform...
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