| Review of the national ignition campaign 2009-2012 J Lindl, O Landen, J Edwards, E Moses, NIC team Physics of Plasmas 21 (2), 2014 | 731 | 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 | 257 | 2022 |
| 3D‐printed transparent glass DT Nguyen, C Meyers, TD Yee, NA Dudukovic, JF Destino, C Zhu, ... Advanced materials 29 (26), 1701181, 2017 | 251 | 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 | 199 | 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 | 187 | 2016 |
| Microfluidic four-roll mill for all flow types JS Lee, R Dylla-Spears, NP Teclemariam, SJ Muller Applied physics letters 90 (7), 2007 | 166 | 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 | 150 | 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 | 135 | 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 | 135 | 2012 |
| 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 | 132 | 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 | 126 | 2018 |
| 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 | 102 | 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 | 95 | 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 | 94 | 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 | 83 | 2015 |
| 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 | 78 | 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 | 72 | 2013 |
| Assembly of high-areal-density deuterium-tritium fuel from indirectly driven cryogenic implosions A MacKinnon, J Kline, S Dixit, S Glenzer, M Edwards, D Callahan, ... American Physical Society, 2012 | 69 | 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 | 65 | 2019 |
| First implosion experiments with cryogenic thermonuclear fuel on the National Ignition Facility SH Glenzer, BK Spears, MJ Edwards, ET Alger, RL Berger, DL Bleuel, ... Plasma Physics and Controlled Fusion 54 (4), 045013, 2012 | 63 | 2012 |
