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Field
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the Boolean response of the modal plasmonic processors. The candidate will develop a cw excitation / linear photo-luminescence detection scheme in collaboration with near-field optical microscopy experts in ICB
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project focuses on estimating dead fuel produced by forest dieback. In previous projects, a processing chain using Sentinel-2 data has already been developed (Mouret et al., 2024). The objective here is to
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experimental parameters (time, temperature). To optimize these parameters, active learning techniques based on Bayesian optimization will be applied. In situ or ex situ characterizations (FTIR, ¹¹B/¹H NMR, HP
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accelerators. The main objective of the postdoctoral project is the design, optimization, and implementation of compact focusing optics and beam diagnostics tailored to the specific characteristics of electron
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on the modeling of tumor growth. Tumor growth is a complex phenomenon, influenced by numerous biological, metabolic and environmental factors. Morphological magnetic resonance imaging (MRI) is widely used to detect
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Description The candidate will work on a project funded by the ANR and whose objective is the characterization of an antimicrobial peptide resistance system in the bacterium Streptococcus pneumoniae
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movements can be preceded by slow movements lasting from several days to several years. These movements can be detected and tracked by satellites, either using radar or optical sensors. Since 2016, data from
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Centre de Nanosciences et de Nanotechnologies | Palaiseau, le de France | France | about 2 months ago
are mixed and detected by a photoreceiver that translates the optical signal into the radiofrequency (RF) domain. As a result, each pair of comb lines produces a signal at a unique RF frequency, allowing a
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the postdoctoral researcher will be a part: Carole Adam, Senior Lecturer at the UGA. The objective of the project for UGA is to design and implement an agent-based simulator to evaluate coordinated response
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for the detection of trace amounts of pollutant molecules (BTEX) in aqueous environments (saline or fresh water). He/she will contribute to the implementation of the complete optical system and associated