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coupling of nearby structures. Unfortunately, the required nano-photonic simulations are generally very time-consuming, and not only each nanostructure needs to be simulated individually, the optical
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ionization electron is much higher than that of a scintillation photon. The price is the loss of particle identification based on the scintillation pulse shape, but the gain is in the detection threshold
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(UCA) and the French National Center for Scientific Research (CNRS). INPHYNI's activities are structured around three, principal axes: waves and quantum physics, photonics and nonlinear physics, complex
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experimental, using four cold-atom apparatus and several smaller hot-vapor setups, but also theoretical, in particular through many collaborations. Cold atoms coupled to photons are a promising platform for
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to the study of physical phenomena in the fields of energy, photonics, health and the environment (https://www.ipcms.fr ). The PhD student will join the "Advanced Molecular Materials" team of the Organic
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of materials science, photonics, and electrochemistry/ photo-electrochemistry as well as crystallography and ultrafast spectroscopy. They should be familiar and interested in using various experimental
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the absorption of photons by photoreceptor cells in the retina that convert light into chemical signals. Photoreceptors are post-mitotic neuroepithelial cells and, thus, need to last a lifetime. Yet
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invariance breaks, etc.), and Higgs boson searches and measurements (two-photon decay channel, HH, top-Higgs coupling). In addition, the group has major responsibilities in the effort to improve CMS for the HL
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of atoms connects many domains of physics, from complex media in mesoscopic physics to quantum optics. The resonant photons sent on a large sample of atoms can undergo multiple scattering events, and their
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starting date in fall 2024. The objective of the doctoral network is the modeling of emerging phenomena resulting from the excitation, correlation, and (de)coherence of electrons, spins, photons, and nuclear