We review recently advances in coherent transmitters and receivers based on monolithic silicon photonic integrated circuits.
We review silicon photonic integrated circuits for high-capacity optical communications.
We review and discuss some novel low-power and high-capacity silicon photonic devices and circuits, which can find applications in future 400G and beyond transceivers in telecom and datacom optical
Silicon photonics is perceived to provide low-cost, high-bandwidth and compact optical components for a wide range of applications in optical communications and interconnects.
We discuss silicon photonic integrated circuits to enable large-capacity wavelength-division multiplexing (WDM) applications.
Four level pulse amplitude modulation (PAM-4) has become the modulation format of choice to replace on-off keying (OOK) for the 400 Gb/s short reach optical communications systems.
A seven-core optical fiber, each core carrying two wavelength channels, is coupled to a novel silicon photonic integrated circuit (PIC).
IEEE We demonstrate the first-ever silicon photonics enabled hyper-wideband RF spread-spectrum link.
We demonstrate the first-ever silicon photonics enabled hyper-wideband RF spread-spectrum link.
We demonstrate the first-ever silicon photonics enabled hyper-wideband RF spread-spectrum link.