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Programmable Photonic Chips Adapt PICs to Multiple Futures

Liquid crystal technology and MEMS are enabling reprogrammable PICs that will be able to support multiple functions and significantly accelerate the development cycle of future photonic chips.

While electronics are perfect for performing fast calculations, photonics are ideal for moving information around. A major drawback of the latter, however, is the slow and costly development process for new photonic integrated chips, hampering their widespread use. If photonic chips could be reprogrammed for different applications, this would drastically lower development costs, shorten the time to market, and improve the sustainability of their use.

photonic circuit platforms
The various approaches ranked according to the speed of the phase shift effect they enable versus its relative magnitude. Different actuation mechanisms can implement phase shifting in photonic circuit platforms. The ideal phase shifters would offer low power consumption, low optical losses, a short optical length, and a small footprint. Stronger mechanisms typically require a smaller footprint or length to include a phase shift. Courtesy of Ghent University/imec.

The various approaches ranked according to the speed of the phase shift effect they enable versus its relative magnitude. Different actuation mechanisms can implement phase shifting in photonic circuit platforms. The ideal phase shifters would offer low power consumption, low optical losses, a short optical length, and a small footprint. Stronger mechanisms typically require a smaller footprint or length to include a phase shift. Courtesy of Ghent University/imec.

In order to operate, reprogrammable photonic chips would require a large number of efficient electro-optic actuators to switch, split, and filter the light signals traveling through them. By introducing microelectromechanical systems (MEMS), as well as liquid-crystal-based solutions, researchers are now developing low-power building blocks for large-scale and reconfigurable photonic integrated circuits (PICs). Such versatile photonic chips promise to expedite applications in a wide variety of industries, including biosensing, medical technologies, and information processing.

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