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advancing optical tweezers techniques and developing novel nanoprobe-based sensing methods at the single-particle level. About us The project centers on the development of single-particle approaches
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Laboratory is addressing thermal management and advanced packaging, mainly by manipulating nanomaterials and compositions to reach maximum thermal, electrical or mechanical performance. The group has a long
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. Detailed description of the work duties, such as: Deputy group leader of the biophotonic sensing group. Research within laser remote sensing of the biosphere including animal-, plant- and fungi- kingdoms
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growth rate or improve stem. Some stand conditions and tree characteristics can be measured remotely, as for example using remote sensing technologies. Ideally, such technologies will provide information
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productivity across northern regions. The research will leverage unique, long-term datasets from Fennoscandian lakes— including climate data, water chemistry, biotic indicators, and satellite remote sensing
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. The research includes development of growth models, crop production management with remote sensing tools and spectral techniques, and agronomic studies. Ongoing projects involve the use of optical and radar
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quality and quantity in agricultural systems. At the division, there are about 35 employees and around 20 PhD students. The current position is within the Remote Sensing and AI in Hydrology research group
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planning - LLMs and VLMs for high-level planning and sense awareness Autonomy for modular and soft robotics - Reconfigurable morphogenesis - Self-assembling, terrain-adaptive locomotion - Embedded sensing
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eco-evolutionary physiology and thermal biology. Work duties The position is linked to the research program "HotLife – Pathways to Survival in a Warmer World," funded by the European Research Council
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dynamics, as it governs key processes like energy balance, turbulence, and thermal structure, directly influencing ecological and biogeochemical responses. However, modeling these dynamics globally remains