| Review of the national ignition campaign 2009-2012 J Lindl, O Landen, J Edwards, E Moses, NIC team Physics of Plasmas 21 (2), 2014 | 769 | 2014 |
| Lawson criterion for ignition exceeded in an inertial fusion experiment H Abu-Shawareb, R Acree, P Adams, J Adams, B Addis, R Aden, P Adrian, ... Physical review letters 129 (7), 075001, 2022 | 317 | 2022 |
| 3D‐printed transparent glass DT Nguyen, C Meyers, TD Yee, NA Dudukovic, JF Destino, C Zhu, ... Advanced materials 29 (26), 1701181, 2017 | 270 | 2017 |
| The high-foot implosion campaign on the National Ignition Facility OA Hurricane, DA Callahan, DT Casey, EL Dewald, TR Dittrich, ... Physics of Plasmas 21 (5), 2014 | 203 | 2014 |
| Inertially confined fusion plasmas dominated by alpha-particle self-heating OA Hurricane, DA Callahan, DT Casey, EL Dewald, TR Dittrich, ... Nature Physics 12 (8), 800-806, 2016 | 197 | 2016 |
| Microfluidic four-roll mill for all flow types JS Lee, R Dylla-Spears, NP Teclemariam, SJ Muller Applied physics letters 90 (7), 2007 | 173 | 2007 |
| High-density carbon ablator experiments on the National Ignition Facility AJ MacKinnon, NB Meezan, JS Ross, S Le Pape, L Berzak Hopkins, ... Physics of Plasmas 21 (5), 2014 | 157 | 2014 |
| First high-convergence cryogenic implosion in a near-vacuum hohlraum LF Berzak Hopkins, NB Meezan, S Le Pape, L Divol, AJ Mackinnon, ... Physical review letters 114 (17), 175001, 2015 | 138 | 2015 |
| A high-resolution integrated model of the National Ignition Campaign cryogenic layered experiments OS Jones, CJ Cerjan, MM Marinak, JL Milovich, HF Robey, PT Springer, ... Physics of Plasmas 19 (5), 2012 | 138 | 2012 |
| 3D printed optical quality silica and silica–titania glasses from sol–gel feedstocks JF Destino, NA Dudukovic, MA Johnson, DT Nguyen, TD Yee, GC Egan, ... Advanced Materials Technologies 3 (6), 1700323, 2018 | 136 | 2018 |
| Cryogenic thermonuclear fuel implosions on the National Ignition Facility SH Glenzer, DA Callahan, AJ MacKinnon, JL Kline, G Grim, ET Alger, ... Physics of Plasmas 19 (5), 2012 | 134 | 2012 |
| 3D printed gradient index glass optics R Dylla-Spears, TD Yee, K Sasan, DT Nguyen, NA Dudukovic, JM Ortega, ... Science advances 6 (47), eabc7429, 2020 | 118 | 2020 |
| Performance metrics for inertial confinement fusion implosions: Aspects of the technical framework for measuring progress in the National Ignition Campaign BK Spears, S Glenzer, MJ Edwards, S Brandon, D Clark, R Town, ... Physics of Plasmas 19 (5), 2012 | 99 | 2012 |
| Single-molecule sequence detection via microfluidic planar extensional flow at a stagnation point R Dylla-Spears, JE Townsend, L Jen-Jacobson, LL Sohn, SJ Muller Lab on a Chip 10 (12), 1543-1549, 2010 | 98 | 2010 |
| Chemistry and formation of the Beilby layer during polishing of fused silica glass T Suratwala, W Steele, L Wong, MD Feit, PE Miller, R Dylla‐Spears, ... Journal of the American Ceramic Society 98 (8), 2395-2402, 2015 | 86 | 2015 |
| Achievement of target gain larger than unity in an inertial fusion experiment H Abu-Shawareb, R Acree, P Adams, J Adams, B Addis, R Aden, P Adrian, ... Physical Review Letters 132 (6), 065102, 2024 | 83 | 2024 |
| Thin shell, high velocity inertial confinement fusion implosions on the National Ignition Facility T Ma, OA Hurricane, DA Callahan, MA Barrios, DT Casey, EL Dewald, ... Physical Review Letters 114 (14), 145004, 2015 | 79 | 2015 |
| Nuclear imaging of the fuel assembly in ignition experiments GP Grim, N Guler, FE Merrill, GL Morgan, CR Danly, PL Volegov, ... Physics of Plasmas 20 (5), 2013 | 74 | 2013 |
| Assembly of High-Areal-Density Deuterium-Tritium Fuel<? format?> from Indirectly Driven Cryogenic Implosions AJ Mackinnon, JL Kline, SN Dixit, SH Glenzer, MJ Edwards, DA Callahan, ... Physical Review Letters 108 (21), 215005, 2012 | 71 | 2012 |
| Progress of indirect drive inertial confinement fusion in the United States JL Kline, SH Batha, LR Benedetti, D Bennett, S Bhandarkar, LFB Hopkins, ... Nuclear Fusion 59 (11), 112018, 2019 | 69 | 2019 |
