Quantum Metrology for Precision Measurement
INVITED · MAR-U07 · ID: MAR-U07
Presentations
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Using quantum-controlled molecules to probe for new CP-violating physics at energy scales approaching 1 PeV
Invited-In-person · Invited
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Presenters
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David DeMille
- University of Chicago
Authors
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David DeMille
- University of Chicago
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Towards the ultimate quantum sensor: theoretical aspects of developing the <sup>229</sup>Th nuclear clock
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Presenters
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Andrei Derevianko
- University of Nevada, Reno
Authors
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Andrei Derevianko
- University of Nevada, Reno
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Testing relativity on a tabletop with optical lattice atomic clocks
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Publication: S. Ma, J. Dolde, X. Zheng, D. Ganapathy, A. Shtov, J. Chen, A. Stoeltzel, B.J. Christensen, and S. Kolkowitz, "Enhancing optical lattice clock coherence times with erasure conversion," accepted for publication in PRX Quantum (2025). https://arxiv.org/abs/2505.06437
J. Dolde, D. Ganapathy, X. Zheng, S. Ma, K. Beloy, and S. Kolkowitz, "Direct measurement of the 3P0 clock state natural lifetime in 87Sr," Physical Review A, 112 023121 (2025). https://journals.aps.org/pra/abstract/10.1103/f6pt-flnt
X. Zheng, J. Dolde, M.C. Cambria, H.M. Lim, and S. Kolkowitz, "A lab-based test of the gravitational redshift with a miniature clock network," Nature Communications, 14 4886 (2023). https://www.nature.com/articles/s41467-023-40629-8
X. Zheng, J. Dolde, V. Lochab, B.N. Merriman, H. Li, and S. Kolkowitz, "Differential clock comparisons with a multiplexed optical lattice clock," Nature 602, 425-430 (2022). https://www.nature.com/articles/s41586-021-04344-yPresenters
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Shimon Kolkowitz
- University of California, Berkeley
Authors
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Shimon Kolkowitz
- University of California, Berkeley
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Quantum Chaos and Entanglement in a Trapped Ion Crystal
Invited-In-person · Invited
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Presenters
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Ana Maria Rey
- University of Colorado, Boulder
Authors
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Ana Maria Rey
- University of Colorado, Boulder
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{Wideband electric field sensing via a single trapped ion beyond the Fourier and Standard Quantum Limits}
Invited-In-person · Invited
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Publication: [1] H. Wu, et al. Wideband electric field quantum sensing via motional Raman transitions. Nat. Phys. 21, 380–385 (2025).
[2] H. Wu, et. al. Super-resolution of two Closely-spaced Electromagnetic Fields via Walsh-Modulated Dynamical Decoupling Spectroscopy, (2025), arXiv:2506.22767 [physics.atom-ph].
Presenters
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Hao Wu
- University of California at Los Angeles
Authors
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Hao Wu
- University of California at Los Angeles
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Grant Mitts
- University of California, Los Angeles
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Clayton Ho
- University of California, Los Angeles
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Joshua Rabinowitz
- University of California, Los Angeles
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Eric Hudson
- University of California, Los Angeles
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