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radiation in the 20–40 eV range, corresponding to the expected operating values for the abovEF instrument under development. Analysis of the detector's response serves to optimize the spectrometer's optical
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. Responsibilities and tasks This PhD project aims to optimize the design of hybrid electrical–optical computing architectures: Investigate and design optimal computing and communication architectures for hardware
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optical spectroscopy, including measurements as a function of temperature, oxygen concentration, and pH. Calibration of the materials as sensors to measure temperature, oxygen, and pH values in cells
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ranges, fibre-optic sensors, lidars, optical communication systems and quantum technologies. In these areas, the section is developing laboratory test setups and simulation tools. Depending on your
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6 Jan 2026 Job Information Organisation/Company ISCTE - Instituto Universitário de Lisboa Research Field Engineering » Electrical engineering Physics » Optics Engineering » Communication engineering
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multiple technological platforms - photonics, electronics, biological neurons. Responsibilities and tasks This PhD project aims to optimize the design of hybrid electrical–optical computing architectures
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mechanics, optical components, thermal management, and tracking or control mechanisms. Use existing simulation tools (e.g., ray-tracing, CFD, thermal and structural solvers) to analyze optical performance
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and technologies for increasing energy efficiency. Experience in performance analysis methods for photovoltaic systems, including the use of optical techniques (e.g., infrared thermography) and
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influence the acoustic signatures detected by fibre-optic DAS systems. Contribute to the development of a DAS signal simulator capable of interpreting acoustic DAS signatures under varying flow conditions
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nanostructures for photonic integration in smart vision systems. In particular, he/she will be responsible for the theoretical study and development of codes and numerical models for computer simulation and design