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ASCENT: Large-Scale Electronic-Photonic Circuits with Heterogeneously Integrated Conductiv — NSF Award to Baylor University (TX, $

Of all existing semiconductor platforms, silicon is undeniably the most critical one for heterogeneous integration between photonic and electronic integrated circuits that can revolutionize future semiconductor systems. The aim of this ASCENT project focuses on energy-efficient silicon photonic circuits with co-designe

Award titleASCENT: Large-Scale Electronic-Photonic Circuits with Heterogeneously Integrated Conductiv
Award ID2520231
AwardeeBaylor University
CityWACO
StateTX
Amount obligated$1,140,000
Principal investigatorAlan Wang
ProgramASCENT-Address-Chalg-Eng-Teams, NSF-Intel Semiconductr Partnrs
Start date10/01/2025
AbstractOf all existing semiconductor platforms, silicon is undeniably the most critical one for heterogeneous integration between photonic and electronic integrated circuits that can revolutionize future semiconductor systems. The aim of this ASCENT project focuses on energy-efficient silicon photonic circuits with co-designed electronic application-specific integrated circuits by heterogeneously integrating high-mobility transparent conductive oxide through wafer- and panel-scale manufacturing. The ap
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