Shuying Chen

Line search by quantum logic spectroscopy enhanced with squeezing and statistical tests

Physical Review A American Physical Society (APS) 113:4 (2026) 042613

Authors:

Ivan Vybornyi, Shuying Chen, Lukas J Spieß, Piet O Schmidt, Klemens Hammerer

Abstract:

In quantum logic spectroscopy, internal transitions of trapped ions and molecules can be probed by measuring the motional displacement caused by an applied light field of variable frequency. This provides a solution to “needle-in-a-haystack” problems, such as the search for narrow clock transitions in highly charged ions, recently discussed by Chen []. The main bottleneck is the search speed over a frequency bandwidth, which can be increased by enhancing the sensitivity of displacement detection. In this work, we explore two complementary improvements: the use of squeezed motional states, explained using an analytical phase-space model, and optimal statistical postprocessing of data using a hypothesis-testing framework. We demonstrate that each method independently provides a substantial boost to search speed. Their combination effectively mitigates state preparation and measurement errors, improving the search speed by an order of magnitude and fully leveraging the quantum enhancement offered by squeezing.

Finding the Ultranarrow P 3 2 → P 3 0 Electric Quadrupole Transition in Ni 12 + Ion for an Optical Clock

Physical Review Letters American Physical Society (APS) 135:9 (2025) 093002

Authors:

Charles Cheung, Sergey G Porsev, Dmytro Filin, Marianna S Safronova, Malte Wehrheim, Lukas J Spieß, Shuying Chen, Alexander Wilzewski, José R Crespo López-Urrutia, Piet O Schmidt

Excited-State Magnetic Properties of Carbon-like Ca14+

Physical Review Letters American Physical Society (APS) 135:4 (2025) 043002

Authors:

Lukas J Spieß, Shuying Chen, Alexander Wilzewski, Malte Wehrheim, Jan Gilles, Andrey Surzhykov, Erik Benkler, Melina Filzinger, Martin Steinel, Nils Huntemann, Charles Cheung, Sergey G Porsev, Andrey I Bondarev, Marianna S Safronova, José R Crespo López-Urrutia, Piet O Schmidt

Abstract:

We measured the g-factor of the excited-state P13 in Ca14+ ion to be g=1.499032(6) with a relative uncertainty of 4×10−6. The magnetic field magnitude is derived from the Zeeman splitting of a Be+ ion, cotrapped in the same linear Paul trap as the highly charged Ca14+ ion. Furthermore, we experimentally determined the second-order Zeeman coefficient C2 of the P03−P13 clock transition. For the mJ=0→mJ′=0 transition, we obtained C2=0.39±0.04  Hz mT−2, which is to our knowledge the smallest reported for any atomic transition to date. This confirms the predicted low sensitivity of highly charged ions to higher-order Zeeman effects, making them ideal candidates for high-precision optical clocks. Comparison of the experimental results with our state-of-the art electronic structure calculations shows good agreement and demonstrates the significance of the frequency-dependent Breit contribution, negative energy states, and QED effects on magnetic moments.

Nonlinear Calcium King Plot Constrains New Bosons and Nuclear Properties.

Physical review letters 134:23 (2025) 233002

Authors:

Alexander Wilzewski, Lukas J Spieß, Malte Wehrheim, Shuying Chen, Steven A King, Peter Micke, Melina Filzinger, Martin R Steinel, Nils Huntemann, Erik Benkler, Piet O Schmidt, Luca I Huber, Jeremy Flannery, Roland Matt, Martin Stadler, Robin Oswald, Fabian Schmid, Daniel Kienzler, Jonathan Home, Diana PL Aude Craik, Menno Door, Sergey Eliseev, Pavel Filianin, Jost Herkenhoff, Kathrin Kromer, Klaus Blaum, Vladimir A Yerokhin, Igor A Valuev, Natalia S Oreshkina, Chunhai Lyu, Sreya Banerjee, Christoph H Keitel, Zoltán Harman, Julian C Berengut, Anna Viatkina, Jan Gilles, Andrey Surzhykov, Michael K Rosner, José R Crespo López-Urrutia, Jan Richter, Agnese Mariotti, Elina Fuchs

Abstract:

Nonlinearities in King plots (KP) of isotope shifts (IS) can reveal the existence of beyond-standard-model (BSM) interactions that couple electrons and neutrons. However, it is crucial to distinguish higher-order standard model (SM) effects from BSM physics. We measure the IS of the transitions ^{3}P_{0}→^{3}P_{1} in Ca^{14+} and ^{2}S_{1/2}→^{2}D_{5/2} in Ca^{+} with sub-Hz precision as well as the nuclear mass ratios with relative uncertainties below 4×10^{-11} for the five stable, even isotopes of calcium (^{40,42,44,46,48}Ca). Combined, these measurements yield a calcium KP nonlinearity with a significance of ∼10^{3}σ. Precision calculations show that the nonlinearity cannot be fully accounted for by the expected largest higher-order SM effect, the second-order mass shift, and identify the little-studied nuclear polarization as the only remaining SM contribution that may be large enough to explain it. Despite the observed nonlinearity, we improve existing KP-based constraints on a hypothetical Yukawa interaction for most of the new boson masses between 10  eV/c^{2} and 10^{7}  eV/c^{2}.

Identification of highly forbidden optical transitions in highly charged ions

Physical Review Applied American Physical Society (APS) 22:5 (2024) 054059

Authors:

Shuying Chen, Lukas J Spieß, Alexander Wilzewski, Malte Wehrheim, Kai Dietze, Ivan Vybornyi, Klemens Hammerer, José R Crespo López-Urrutia, Piet O Schmidt