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Heterogeneous integration enables high performance active components such as lasers, modulators, and photodetectors to be elegantly integrated on a silicon photonics platform with high performance passive components. This platform also offers the unique capability to combine different types of active devices with separately optimized materials on the same wafer, die, and photonic integrated circuit...
Aurrion's heterogeneous integration platform combines best-in-class passive and active devices in a cost-effective manufacturing process for both military and commercial systems. The resulting silicon photonics chips can be intimately integrated with advanced electronics to enable new system-in-package capability.
Aurrion's heterogeneous integration process enables high performance active components such as lasers, modulators, and photodetectors to be elegantly integrated on a silicon photonics platform with high performance passive components.
As the component count rises in photonic systems, photonic integration becomes increasingly attractive from a cost, power consumption, and footprint perspective due to the ability to reduce the on-chip to off-chip interfaces and simplify packaging. Although photonic integration has been investigated in many forms over the last decade, the incompatibility of passive and active devices in standard integration...
As the component count rises in photonic systems, photonic integration becomes increasingly attractive from a cost, power consumption, and footprint perspective due to the ability to reduce the on-chip to off-chip interfaces and simplify packaging. Although photonic integration has been investigated in many forms over the last decade, the incompatibility of passive and active devices in standard integration...
In this paper, we demonstrate silicon evanescent lasers using a new architecture as one way to build photonic active devices on a silicon-on-insulator (SOI) wafer via low temperature wafer bonding. This approach adopts a wafer bonded structure between a silicon passive waveguide and III-V offset quantum wells. The optical mode is predominantly confined in the silicon waveguide and a small percentage...
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