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Do you want to unravel the physics of water and ion transport in micro-electronics? Do you want to lay the foundation for early warning methods and sensors in chips and electronic circuits? Irène
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focus on the candidate’s profile to make our choice, since this is a highly challenging, project, requiring interdisciplinary skills in the field of chemistry, physics and electrical engineering. Project
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on the InP-on-Si platform. The work will be done primarily on 4-inch wafers to take advantage of the 4-inch InP process line in the TU/e nanolab cleanroom. But the technology developed will be scalable to much
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embedded within the Laboratory of Physical Chemistry at the Department of Chemical Engineering and Chemistry and will be supervised by dr. Heiner Friedrich and prof. Rolf van Benthem . Research
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stringent latency constraints. Besides making use of well-known diversity techniques at the physical layer such as channel coding and multiple antennas, the project will investigate diversity techniques
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on the pulsed power development for this process. For this project the pulsed power development will consist of two phases. In the first phase you will research (together with a PhD student on plasma chemistry
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photolithographic process. That’s why a lithographic equipment is kept on its own ecosystem – in a cleanroom and isolated from the hustle and bustle of the outside world. The semiconductor industry largely relies
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be changed over time. Accordingly, the computation resources may need to be rescheduled to fulfill dynamic needs for processing sensory data. This process of reconfiguration must be efficient, real
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vacation pay of 8%. High-quality training programs and other support to grow into a self-aware, autonomous scientific researcher. At TU/e we challenge you to take charge of your own learning process . An
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adaptation, and synthetic data generation. 2. Domain Knowledge-Augmented Representation Learning: Development of techniques for incorporating clinical domain knowledge with physics-informed neural networks