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replacement (TDR). Traditionally, this issue has been attributed to mechanical load alterations post-implantation. However, emerging evidence suggests that wear particles from spinal implants may also
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particles that could explain the cosmologically observed dark matter abundance. However, it might well turn out that dark matter particles interact too weakly with ordinary matter to be directly detectable in
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P., Vogel, S.*, Hatzakis Nikos S.*, Single particle combinatorial multiplexed liposome fusion mediated by DNA, Nature Chemistry, 2022, 14, 558–565. - P. M. G. Löffler, O. Ries, A. Rabe, A. H. Okholm
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total disc replacement (TDR). Traditionally, this issue has been attributed to mechanical load alterations post-implantation. However, emerging evidence suggests that wear particles from spinal implants
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predict how advected biomass shapes production, life histories, and species distributions in recipient ecosystems. The main task of the successful candidate will be to use particle tracking within ocean
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species distributions in recipient ecosystems. The main task of the successful candidate will be to use particle tracking within ocean circulation models to simulate mesopelagic biomass transport and
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., Zhang, M., Hedegaard P., Vogel, S.*, Hatzakis Nikos S.*, Single particle combinatorial multiplexed liposome fusion mediated by DNA, Nature Chemistry, 2022, 14, 558–565. - P. M. G. Löffler, O. Ries, A
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participate. The present project aims at studying collective and single-particle properties of neutron-rich nuclei in the region around 78Ni by measuring electromagnetic transition probabilities
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replacement (TDR). Traditionally, this issue has been attributed to mechanical load alterations post-implantation. However, emerging evidence suggests that wear particles from spinal implants may also
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from selected areas, each home to a dynamic community of thinkers engaged in high-level critical debate. We look forward to announcing the latest group of fellows in summer 2025. Filter by: Year 2021