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circuits, transport phenomena in graphene and molecular nanostructures, to unconventional and topological superconductors. Our division integrates theory and experiment and works closely with groups such as
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for this position will be: Solid modeling and design of high-performance integrated photonic devices Process development of low-loss photonic integrated circuits on different material platforms Heterogeneous
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, and generative modeling are reshaping how systems are designed, verified, and deployed. However, AI integration into heterogeneous design automation remains fragmented and underdeveloped. Current EDA
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materials. Priority research topics include, but are not limited to design and synthesis of advanced nanoelectronic materials; device fabrication and system integration; low-dimensional nanomaterials
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include, but are not limited to design and synthesis of advanced nanoelectronic materials; device fabrication and system integration; low-dimensional nanomaterials for ultra-scaled devices and foldable
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of quantum memory protocols in both bulk crystals and waveguide structures, design and integration of MW coils and circuits with photonic components, including optical resonators. The project aims to deliver
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integrated circuit for optical trapping and Raman spectroscopy of biological nanoparticles. The PhD will use advanced simulation tools and state-of-the-art nanotechnology fabrication equipment to make photonic
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be world-class leaders in areas at the crossroads of Next Generation Electronics, Circuits, Architectures and Design Automation for Artificial Intelligence (AI) and applications. The department intends
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are: nanotechnology, spintronics, opto-electronics, renewable power, integrated electrical/biological/optical circuits and systems, image processing and analysis, embedded DSP, digital design, logic synthesis, computer
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on novel antennas, waveguides, and transmission lines. You will work in a large team to integrate novel wireless frontends with RF power transfer and RF sensing circuits, and demonstrate them in practical e