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Developing doped ferroelectrics for ultracompact and energy-efficient photonic application — NSF Award to Yale University (CT, $42

Nontechnical abstract: Using light and optics to transmit and process data is foundational to the modern information technology age. This project aims to develop cutting-edge materials systems that can be implemented in state-of-the-art optical information processing platforms, such as for highly efficient lasers and l

Award titleDeveloping doped ferroelectrics for ultracompact and energy-efficient photonic application
Award ID2412358
AwardeeYale University
CityNEW HAVEN
StateCT
Amount obligated$420,000
Principal investigatorCharles Ahn
ProgramELECTRONIC/PHOTONIC MATERIALS
Start date08/01/2024
AbstractNontechnical abstract: Using light and optics to transmit and process data is foundational to the modern information technology age. This project aims to develop cutting-edge materials systems that can be implemented in state-of-the-art optical information processing platforms, such as for highly efficient lasers and low-energy consumption optical circuits. Key to the project is the application of novel synthesis and characterization techniques to design and fabricate these enabling materials sy
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