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applications. Point defect-based QT facilitates quantum bits based on either the electron spin or photon polarization and is well suited for optical readout using the single photon emitter (SPE) property
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applications. Point defect-based QT facilitates quantum bits based on either the electron spin or photon polarization and is well suited for optical readout using the single photon emitter (SPE) property
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-based QT facilitates quantum bits based on either the electron spin or photon polarization and is well suited for optical readout using the single photon emitter (SPE) property. Importantly, point defect
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to understand how elements heavier than iron are formed in explosive stellar environments. The current project aims at studying nuclear level densities and photon strength functions
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such as heavy quarkonia, charm and beauty hadrons down to very low momentum, heavy-flavour tagged jets, photo-nuclear and photon-photon interactions in ultra-peripheral collisions, etc. The physics aims
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precision measurements of rare probes such as heavy quarkonia, charm and beauty hadrons down to very low momentum, heavy-flavour tagged jets, photo-nuclear and photon-photon interactions in ultra-peripheral
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Particle accelerators are engines of discovery in basic physics, photon science, medical research and more. Plasma acceleration promises to make these machines much more compact (and cheaper), which may help