An atomic clock with 10–18 instability N Hinkley, JA Sherman, NB Phillips, M Schioppo, ND Lemke, K Beloy, ...
Science 341 (6151), 1215-1218, 2013
1127 2013 Atomic clock performance enabling geodesy below the centimetre level WF McGrew, X Zhang, RJ Fasano, SA Schäffer, K Beloy, D Nicolodi, ...
Nature 564 (7734), 87-90, 2018
814 2018 Ultrastable optical clock with two cold-atom ensembles M Schioppo, RC Brown, WF McGrew, N Hinkley, RJ Fasano, K Beloy, ...
Nature Photonics 11 (1), 48-52, 2017
452 2017 Atomic Clock with K Beloy, N Hinkley, NB Phillips, JA Sherman, M Schioppo, J Lehman, ...
Physical review letters 113 (26), 260801, 2014
187 2014 Hyperpolarizability and operational magic wavelength in an optical lattice clock RC Brown, NB Phillips, K Beloy, WF McGrew, M Schioppo, RJ Fasano, ...
Physical review letters 119 (25), 253001, 2017
151 2017 Coherent delocalization of atomic wave packets in driven lattice potentials VV Ivanov, A Alberti, M Schioppo, G Ferrari, M Artoni, ML Chiofalo, ...
Physical review letters 100 (4), 043602, 2008
146 2008 A transportable strontium optical lattice clock N Poli, M Schioppo, S Vogt, S Falke, U Sterr, C Lisdat, GM Tino
Applied Physics B 117, 1107-1116, 2014
143 2014 New bounds on dark matter coupling from a global network of optical atomic clocks P Wcisło, P Ablewski, K Beloy, S Bilicki, M Bober, R Brown, R Fasano, ...
Science advances 4 (12), eaau4869, 2018
133 2018 Search for transient variations of the fine structure constant and dark matter using fiber-linked optical atomic clocks BM Roberts, P Delva, A Al-Masoudi, A Amy-Klein, C Baerentsen, ...
New Journal of Physics 22 (9), 093010, 2020
126 2020 Search for transient variations of the fine structure constant and dark matter using fiber-linked optical atomic clocks BM Roberts, P Delva, A Al-Masoudi, A Amy-Klein, C Baerentsen, ...
New Journal of Physics 22 (9), 093010, 2020
126 2020 Optical interferometry–based array of seafloor environmental sensors using a transoceanic submarine cable G Marra, DM Fairweather, V Kamalov, P Gaynor, M Cantono, ...
Science 376 (6595), 874-879, 2022
124 2022 Comparing ultrastable lasers at 7 × 10−17 fractional frequency instability through a 2220 km optical fibre network M Schioppo, J Kronjaeger, A Silva, R Ilieva, JW Paterson, CFA Baynham, ...
Nature communications 13 (1), 212, 2022
103 2022 Quantum sensor for atom-surface interactions below F Sorrentino, A Alberti, G Ferrari, VV Ivanov, N Poli, M Schioppo, GM Tino
Physical Review A—Atomic, Molecular, and Optical Physics 79 (1), 013409, 2009
91 2009 A compact and efficient strontium oven for laser-cooling experiments M Schioppo, N Poli, M Prevedelli, S Falke, C Lisdat, U Sterr, GM Tino
Review of Scientific Instruments 83 (10), 2012
80 2012 Measuring the stability of fundamental constants with a network of clocks G Barontini, L Blackburn, V Boyer, F Butuc-Mayer, X Calmet, ...
EPJ Quantum Technology 9 (1), 1-52, 2022
67 2022 A pyramid MOT with integrated optical cavities as a cold atom platform for an optical lattice clock W Bowden, R Hobson, IR Hill, A Vianello, M Schioppo, A Silva, ...
Scientific reports 9 (1), 11704, 2019
61 2019 The space optical clocks project: Development of high-performance transportable and breadboard optical clocks and advanced subsystems S Schiller, A Görlitz, A Nevsky, S Alighanbari, S Vasilyev, ...
2012 European Frequency and Time Forum, 412-418, 2012
46 2012 A high-stability semiconductor laser system for a 88 Sr-based optical lattice clock MG Tarallo, N Poli, M Schioppo, D Sutyrin, GM Tino
Applied Physics B 103, 17-25, 2011
46 2011 Analysis of atomic-clock data to constrain variations of fundamental constants N Sherrill, AO Parsons, CFA Baynham, W Bowden, EA Curtis, ...
New Journal of Physics 25 (9), 093012, 2023
45 2023 Improving the W Bowden, A Vianello, IR Hill, M Schioppo, R Hobson
Physical Review X 10 (4), 041052, 2020
38 2020 
Andrew LudlowPhysicist, NISTEmail được xác minh tại nist.gov