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 | 1108 | 2013 |
Making optical atomic clocks more stable with 10^{-16}-level laser stabilization YY Jiang, AD Ludlow, ND Lemke, RW Fox, JA Sherman, LS Ma, ... Nature Photonics 5 (3), 158-161, 2011 | 532 | 2011 |
High-fidelity readout of trapped-ion qubits AH Myerson, DJ Szwer, SC Webster, DTC Allcock, MJ Curtis, G Imreh, ... Physical Review Letters 100 (20), 200502, 2008 | 483 | 2008 |
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 | 441 | 2017 |
Frequency ratio measurements at 18-digit accuracy using an optical clock network Nature 591 (7851), 564-569, 2021 | 284 | 2021 |
Atomic Clock with Room-Temperature Blackbody Stark Uncertainty K Beloy, N Hinkley, NB Phillips, JA Sherman, M Schioppo, J Lehman, ... Physical review letters 113 (26), 260801, 2014 | 183 | 2014 |
Search for domain wall dark matter with atomic clocks on board global positioning system satellites BM Roberts, G Blewitt, C Dailey, M Murphy, M Pospelov, A Rollings, ... Nature communications 8 (1), 1195, 2017 | 177 | 2017 |
High-Accuracy Measurement of Atomic Polarizability in an Optical Lattice Clock JA Sherman, ND Lemke, N Hinkley, M Pizzocaro, RW Fox, AD Ludlow, ... Physical Review Letters 108 (15), 153002, 2012 | 161 | 2012 |
Coherent optical clock down-conversion for microwave frequencies with 10− 18 instability T Nakamura, J Davila-Rodriguez, H Leopardi, JA Sherman, TM Fortier, ... Science 368 (6493), 889-892, 2020 | 141 | 2020 |
Towards the optical second: verifying optical clocks at the SI limit WF McGrew, X Zhang, H Leopardi, RJ Fasano, D Nicolodi, K Beloy, J Yao, ... Optica 6 (4), 448-454, 2019 | 138 | 2019 |
Implementation of a symmetric surface-electrode ion trap with field compensation using a modulated Raman effect DTC Allcock, JA Sherman, DN Stacey, AH Burrell, MJ Curtis, G Imreh, ... New Journal of Physics 12 (5), 053026, 2010 | 137 | 2010 |
Single-branch Er:fiber frequency comb for precision optical metrology with 10−18 fractional instability H Leopardi, J Davila-Rodriguez, F Quinlan, J Olson, JA Sherman, ... Optica 4 (8), 879-885, 2017 | 113 | 2017 |
Determination of the state lifetime and blackbody-radiation clock shift in Yb K Beloy, JA Sherman, ND Lemke, N Hinkley, CW Oates, AD Ludlow Physical Review A—Atomic, Molecular, and Optical Physics 86 (5), 051404, 2012 | 113 | 2012 |
p-Wave Cold Collisions in an Optical Lattice Clock ND Lemke, J von Stecher, JA Sherman, AM Rey, CW Oates, AD Ludlow Physical Review Letters 107 (10), 103902, 2011 | 111 | 2011 |
Cold-collision-shift cancellation and inelastic scattering in a Yb optical lattice clock AD Ludlow, ND Lemke, JA Sherman, CW Oates, G Quéméner, ... Physical Review A—Atomic, Molecular, and Optical Physics 84 (5), 052724, 2011 | 86 | 2011 |
Precision Measurement of Light Shifts in a Single Trapped Ion JA Sherman, TW Koerber, A Markhotok, W Nagourney, EN Fortson Physical review letters 94 (24), 243001, 2005 | 77 | 2005 |
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 | 76 | 2019 |
NIST on a Chip: Realizing SI units with microfabricated alkali vapour cells J Kitching, EA Donley, S Knappe, M Hummon, AT Dellis, J Sherman, ... Journal of Physics: Conference Series 723 (1), 012056, 2016 | 55 | 2016 |
Oscillator metrology with software defined radio JA Sherman, R Jördens Review of Scientific Instruments 87 (5), 2016 | 55 | 2016 |
Optical-clock-based time scale J Yao, JA Sherman, T Fortier, H Leopardi, T Parker, W McGrew, X Zhang, ... Physical review applied 12 (4), 044069, 2019 | 45 | 2019 |