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The QUCLN project focuses on advancing the control of levitated nanoparticles in quantum mechanics. By achieving ground state cooling and generating non-classical states, it aims to explore the intersection of classical and quantum physics, potentially leading to breakthroughs in quantum sensors and information technol…
Coherent control of a macroscopic quantum system is one of the main objectives of the field of optomechanics with potentially game changing implications for fundamental physics as well as technology.
On one side it could allow the exploration of the classical-to-quantum boundary, on the other it could allow the development of quantum limited sensors and provide a fundamental building block for quantum information.
Among the rich variety of systems in the optomechanics field of research, levitat…
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