Quantum Frequency Estimation in Spatiotemporally Correlated Noise Environments
Kavli Institute for Theoretical Physics via YouTube
Overview
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Explore quantum frequency estimation in spatiotemporally correlated noise environments through this 47-minute conference talk delivered by Lorenza Viola from Dartmouth College. Recorded as part of the Frontiers of Quantum Metrology conference at the Kavli Institute for Theoretical Physics, delve into the intersection of quantum metrology, fundamental physics, and novel applications. Gain insights into how quantum sensors are enabling new studies in dark matter searches and gravitational wave detection. Discover unexpected connections between quantum metrology methods and diverse fields of physics, including optics, condensed matter, atomic physics, quantum information, particle physics, and gravitational physics. Learn about the cross-fertilization between theory and experiment, and how this interdisciplinary approach is prompting new scientific discoveries. Understand the importance of collaboration between particle physics experts and quantum technology researchers in designing and interpreting fundamental physics studies using quantum metrology techniques.
Syllabus
Quantum frequency estimation in spatiotemporally correlated noise... â–¸ Lorenza Viola (Dartmouth)
Taught by
Kavli Institute for Theoretical Physics