Abstract: Embodiments herein describe a photonic chip which includes a coupling interface for evanescently coupling the chip to a waveguide on an external substrate. In one embodiment, the photonic chip includes a tapered waveguide that aligns with a tapered waveguide on the external substrate. The respective tapers of the two waveguides are inverted such that as the width of the waveguide in the photonic chip decreases, the width of the waveguide on the external substrate increases. In one embodiment, these two waveguides form an adiabatic structure where the optical signal transfers between the waveguides with minimal or no coupling of the optical signal to other non-intended modes. Using the two waveguides, optical signals can be transmitted between the photonic chip and the external substrate.

Abstract: Embodiments herein describe a photonic chip which includes a coupling interface for evanescently coupling the chip to a waveguide on an external substrate. In one embodiment, the photonic chip includes a tapered waveguide that aligns with a tapered waveguide on the external substrate. The respective tapers of the two waveguides are inverted such that as the width of the waveguide in the photonic chip decreases, the width of the waveguide on the external substrate increases. In one embodiment, these two waveguides form an adiabatic structure where the optical signal transfers between the waveguides with minimal or no coupling of the optical signal to other non-intended modes. Using the two waveguides, optical signals can be transmitted between the photonic chip and the external substrate.

Abstract: Embodiments herein describe a photonic chip which includes a coupling interface for evanescently coupling the chip to a waveguide on an external substrate. In one embodiment, the photonic chip includes a tapered waveguide that aligns with a tapered waveguide on the external substrate. The respective tapers of the two waveguides are inverted such that as the width of the waveguide in the photonic chip decreases, the width of the waveguide on the external substrate increases. In one embodiment, these two waveguides form an adiabatic structure where the optical signal transfers between the waveguides with minimal or no coupling of the optical signal to other non-intended modes. Using the two waveguides, optical signals can be transmitted between the photonic chip and the external substrate.

Abstract: The embodiments herein describe a photonic chip (formed from a SOI structure) which includes an optical interface for coupling the optical components in the photonic chip to an external optical device. In one embodiment, the optical interface is formed on a separate substrate which is later joined to the photonic chip. Through oxide vias (TOVs) and through silicon vias (TSVs) can be used to electrically couple the optical components in the photonic chip to external integrated circuits or amplifiers. In one embodiment, after the separate wafer is bonded to the photonic chip, a TOV is formed in the photonic chip to electrically connect metal routing layers coupled to the optical components in the photonic chip to a TSV in the separate wafer. For example, the TOV may extend across a wafer bonding interface where the two substrates where bonded to form an electrical connection with the TSV.

Abstract: The embodiments herein describe a photonic chip (formed from a SOI structure) which includes an optical interface for coupling the optical components in the photonic chip to an external optical device. In one embodiment, the optical interface is formed on a separate substrate which is later joined to the photonic chip. Through oxide vias (TOVs) and through silicon vias (TSVs) can be used to electrically couple the optical components in the photonic chip to external integrated circuits or amplifiers. In one embodiment, after the separate wafer is bonded to the photonic chip, a TOV is formed in the photonic chip to electrically connect metal routing layers coupled to the optical components in the photonic chip to a TSV in the separate wafer. For example, the TOV may extend across a wafer bonding interface where the two substrates where bonded to form an electrical connection with the TSV.

Abstract: Embodiments herein describe a photonic chip which includes a coupling interface for evanescently coupling the chip to a waveguide on an external substrate. In one embodiment, the photonic chip includes a tapered waveguide that aligns with a tapered waveguide on the external substrate. The respective tapers of the two waveguides are inverted such that as the width of the waveguide in the photonic chip decreases, the width of the waveguide on the external substrate increases. In one embodiment, these two waveguides form an adiabatic structure where the optical signal transfers between the waveguides with minimal or no coupling of the optical signal to other non-intended modes. Using the two waveguides, optical signals can be transmitted between the photonic chip and the external substrate.