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cavity quantum optomechanics that combines strong light-matter coupling with strong exciton-phonon interactions in a single system. The tri-partite exciton-phonon-photon interactions within a single high-Q
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, including: Robot Learning: Creating algorithms that empower robots to learn autonomously from interactions and adjust to new tasks. Manipulation: Enhancing techniques for precise and adaptable object handling
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cavity quantum optomechanics that combines strong light-matter coupling with strong exciton-phonon interactions in a single system. The tri-partite exciton-phonon-photon interactions within a single high-Q
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candidates from all backgrounds to join our community. The Department of Design is is a community of creative and responsible researchers and design experts. We educate front-line design professionals and
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the society with research-based knowledge, creativity and an entrepreneurial mindset. Inclusive culture fostering equality. All our work is guided by our Aalto and Nordic values such as inclusiveness
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the changing geography of computational infrastructures and understanding how it is shaped by the interaction of technology companies’ business interests and states’ economic and security interests. The project