Recent advancements in the field of photonics have enabled the development of devices that can use light to perform functions that were previously reserved for traditional electronics. Now, researchers have taken the next step by using two-dimensional (2D) materials to create a single chip that can perform multiple photonic functions. This breakthrough could have significant implications for the development of faster, more efficient optical systems.

The research team used two-dimensional materials like graphene, molybdenum disulfide, and boron nitride to develop a single chip that integrates multiple photonic functions. This chip is capable of transmitting, modulating, and detecting light signals. The researchers believe that this chip could be used to create more efficient optical systems that could lead to faster communication speeds and improved data processing capabilities.

This new development could have far-reaching implications for the field of photonics. By combining multiple photonic functions on a single chip, researchers can create more efficient optical systems that could revolutionize the way we process data. This could lead to faster communication speeds and improved data processing capabilities that could be beneficial for a variety of applications.

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source: Phys.org