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John M Robinson
John M Robinson
QuEra Computing
Dirección de correo verificada de colorado.edu
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Lasers with Sub-10 mHz Linewidth
DG Matei, T Legero, S Häfner, C Grebing, R Weyrich, W Zhang, ...
Physical review letters 118 (26), 263202, 2017
5842017
Demonstration of 4.8 × 10−17 stability at 1 s for two independent optical clocks
E Oelker, RB Hutson, CJ Kennedy, L Sonderhouse, T Bothwell, A Goban, ...
Nature Photonics 13 (10), 714-719, 2019
4452019
A Fermi-degenerate three-dimensional optical lattice clock
SL Campbell, RB Hutson, GE Marti, A Goban, N Darkwah Oppong, ...
Science 358 (6359), 90-94, 2017
4392017
Wafer-scale monodomain films of spontaneously aligned single-walled carbon nanotubes
X He, W Gao, L Xie, B Li, Q Zhang, S Lei, JM Robinson, EH Hároz, ...
Nature nanotechnology 11 (7), 633-638, 2016
3912016
Resolving the gravitational redshift across a millimetre-scale atomic sample
T Bothwell, CJ Kennedy, A Aeppli, D Kedar, JM Robinson, E Oelker, ...
Nature 602 (7897), 420-424, 2022
3842022
JILA SrI optical lattice clock with uncertainty of
T Bothwell, D Kedar, E Oelker, JM Robinson, SL Bromley, WL Tew, J Ye, ...
Metrologia 56 (6), 065004, 2019
3622019
Frequency ratio measurements at 18-digit accuracy using an optical clock network
Nature 591 (7851), 564-569, 2021
2772021
Precision metrology meets cosmology: improved constraints on ultralight dark matter from atom-cavity frequency comparisons
CJ Kennedy, E Oelker, JM Robinson, T Bothwell, D Kedar, WR Milner, ...
Physical Review Letters 125 (20), 201302, 2020
2222020
High-performance near-and mid-infrared crystalline coatings
GD Cole, W Zhang, BJ Bjork, D Follman, P Heu, C Deutsch, ...
Optica 3 (6), 647-656, 2016
1932016
Crystalline optical cavity at 4 K with thermal-noise-limited instability and ultralow drift
JM Robinson, E Oelker, WR Milner, W Zhang, T Legero, DG Matei, ...
Optica 6 (2), 240-243, 2019
1602019
Frequency measurements of superradiance from the strontium clock transition
MA Norcia, JRK Cline, JA Muniz, JM Robinson, RB Hutson, A Goban, ...
Physical Review X 8 (2), 021036, 2018
1392018
Ultrastable silicon cavity in a continuously operating closed-cycle cryostat at 4 K
W Zhang, JM Robinson, L Sonderhouse, E Oelker, C Benko, JL Hall, ...
Physical review letters 119 (24), 243601, 2017
1302017
Realizing spin squeezing with Rydberg interactions in an optical clock
WJ Eckner, N Darkwah Oppong, A Cao, AW Young, WR Milner, ...
Nature 621 (7980), 734-739, 2023
1022023
New horizons: Scalar and vector ultralight dark matter
D Antypas, A Banerjee, C Bartram, M Baryakhtar, J Betz, JJ Bollinger, ...
arXiv preprint arXiv:2203.14915, 2022
922022
Demonstration of a timescale based on a stable optical carrier
WR Milner, JM Robinson, CJ Kennedy, T Bothwell, D Kedar, DG Matei, ...
Physical Review Letters 123 (17), 173201, 2019
742019
Direct comparison of two spin-squeezed optical clock ensembles at the 10−17 level
JM Robinson, M Miklos, YM Tso, CJ Kennedy, T Bothwell, D Kedar, ...
Nature Physics 20 (2), 208-213, 2024
50*2024
A high-pressure far-and mid-infrared study of 1, 1-diamino-2, 2-dinitroethylene
M Pravica, Y Liu, J Robinson, N Velisavljevic, Z Liu, M Galley
Journal of Applied Physics 111 (10), 2012
472012
A second generation of low thermal noise cryogenic silicon resonators
DG Matei, T Legero, C Grebing, S Häfner, C Lisdat, R Weyrich, W Zhang, ...
Journal of Physics: Conference Series 723 (1), 012031, 2016
462016
Frequency stability of cryogenic silicon cavities with semiconductor crystalline coatings
D Kedar, J Yu, E Oelker, A Staron, WR Milner, JM Robinson, T Legero, ...
Optica 10 (4), 464-470, 2023
362023
Optical atomic clock comparison through turbulent air
MI Bodine, JD Deschênes, IH Khader, WC Swann, H Leopardi, K Beloy, ...
Physical Review Research 2 (3), 033395, 2020
322020
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