Quantum metrology has emerged as one of the three fundamental pillars of the quantum technology era 2.0, alongside quantum computation and quantum communication. It has already led to substantial scientific progress, from magnetometry with unprecedented sensitivity or spatial resolution to the detection of gravitational waves using squeezed light. At the same time, current research in fundamental physics, such as attempts to detect dark matter or deviations from general relativity, require measurements with unprecedented sensitivities. The goal of the workshop is therefore to bring together researchers from both communities and try to see where quantum metrology can contribute to progress in fundamental physics.
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