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increase the energy efficiency of the process. This PhD project aims to get an in-depth analysis of the potential of coupled photonic resonant circuits for optical computing. The project will consist among
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project aims to get an in-depth analysis of the potential of coupled photonic resonant circuits for optical computing. The project will consist among others of the following tasks: Investigate the links
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therefore increase the energy efficiency of the process. This PhD project aims to get an in-depth analysis of the potential of coupled photonic resonant circuits for optical computing. The project will
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and quantitative sustainability assessment methods, including Life Cycle Assessment (LCA), Energy System Analysis (ESA), and socio-economic modeling. The candidate will be expected to contribute
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Analysis & Firm Valuation Cost & Management Accounting Management Control & Performance Management Accounting Information Systems Accounting & Organizational Change Accounting & Technology Implementation
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, Python, or similar tools). System and control engineering (e.g. digital twins, model predictive control) –pre-knowledge in techno-economic analysis is an advantage. Strong analytical skills and a
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with a postdoctoral researcher responsible for in-situ fatigue testing under corrosive environments, and will participate in the 4D (x,y,z,time) analysis of the AM microstructure and crack formation
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porous carbon electrodes developed in the network. You will leverage advanced data analysis methods such as Distribution of Diffusion Times to obtain insight into mass transfer and microstructural effects
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with both academic researchers and industry experts across Europe. Your key responsibilities will include: Conduct analysis of polymer membrane waste materials Develop electrospinning methods to produce
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, space, modal content, etc. However a systematic analysis of the potential and trade-offs of applying photonic parallelism to computing is still lacking. This PhD project aims to get an in-depth