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- Resolution of the numerical instabilities identified by modifying the algorithms using a combination of computer/mathematical/physical solutions - Repetition of the sequence Identification/resolution
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in the PIMM laboratory and dedicated to the laser generation of shock waves. - Set up an experimental set-up based on a multi-element electronic system for Rayleigh wave generation, synchronized with
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, mechanical properties, detonation, etc.). Use multi-objective approaches for materials design. - Calculate the electronic structures of crystalline structures generated in silico, the thermodynamic/dynamic
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6554 LETG-Rennes (http://letg.cnrs.fr/ ) Work environment: an office and a computer at disposal. This position is located in a sector covered by the protection of scientific and technical potential (PPST
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the scale of the electron gyroradius in the Earth's magnetosphere. This configuration enables us to estimate the electric current density by calculating the curl of the magnetic field measured at four
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- unlike a "usual" laser. The basic technical tools of this activity are continuous lasers, an ultravacuum system, and the servo electronic systems. The person recruited and the team will also develop new
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. This new detector will have its detection electronics underwater, close to the photomultiplier tubes (PMTs). All signals from the 20,000 PMTs will need to be synchronized within the detector
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AI and neural-network based reconstruction methods. The LHCb electromagnetic calorimeter (ECAL) is a critical element of the LHCb experiment, enabling the reconstruction of electrons and photons
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or genes co-expressed with ccyA 2. The phenotypic characterisation of the mutants will be carried out using a combination of methods (growth, photosynthetic activity, cellular iACC content, electron
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, the candidate will participate in the assembly of the modules (optical, mechanical, electronic, etc.) required for the experiments described above. The candidate will also be in charge of data acquisition and