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: The project aims to Systematic screening of the interactions between biochemically defined host-tissue components and pathogenic bacteria Analysis of bacterial phenotype in the presence of defined biochemical
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. The successful candidate will be joining the Atomic Quantum Optics group led by Prof. Dr. Morgan Mitchell, in an experiment on the interaction of single photons and entangled photon pairs with individual trapped
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. The successful candidate will be joining the Ultracold Quantum Gases group led by Prof. Dr. Leticia Tarruell. The interplay of interactions and gauge fields is responsible for some of the most intriguing phenomena
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analysis pipeline to probe cell and tissue mechanics and cell–cell mechanical interactions. Microfluidic systems for controlled migration assays, immune‑cell trafficking, and spatially resolved tumor–immune
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polarization via exciton population engineering, including nonlinear optical responses relevant for neuromorphic activation functions. Analysis and interpretation of experimental data in close interaction with
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cold plasma-based postharvest technologies, significant scientific challenges remain in understanding how such approaches interact with fresh produce systems. Key open questions relate to the mechanisms
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modulation effects, which can be interrogated using on-chip interferometric configurations such as Mach-Zehnder interferometers. By quantifying changes in the guided mode due to the interaction with analytes
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homolog. These changes affect intermolecular interactions and ultimately reshape condensate mechanics to facilitate neuronal mechanotransduction. The goal of this position is to unravel how pH-dependent
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sparsity and dependence. Specifically, the project explores inference for complex models including SDEs with jumps, fractional noise, and heterogeneous interacting particle systems (such as graphon-based
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. This challenge is particularly relevant in horticultural production systems, where root-soil interactions and rhizosphere functioning play a central role in sustaining plant performance under physical soil