| Burning plasma achieved in inertial fusion AB Zylstra, OA Hurricane, DA Callahan, AL Kritcher, JE Ralph, HF Robey, ... Nature 601 (7894), 542-548, 2022 | 349 | 2022 |
| 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 | 245 | 2022 |
| Deep neural network initialization with decision trees KD Humbird, JL Peterson, RG McClarren IEEE transactions on neural networks and learning systems 30 (5), 1286-1295, 2018 | 160 | 2018 |
| Design of inertial fusion implosions reaching the burning plasma regime AL Kritcher, CV Young, HF Robey, CR Weber, AB Zylstra, OA Hurricane, ... Nature Physics 18 (3), 251-258, 2022 | 123 | 2022 |
| Transfer learning to model inertial confinement fusion experiments KD Humbird, JL Peterson, BK Spears, RG McClarren IEEE Transactions on Plasma Science 48 (1), 61-70, 2019 | 82 | 2019 |
| Zonal flow generation in inertial confinement fusion implosions JL Peterson, KD Humbird, JE Field, ST Brandon, SH Langer, RC Nora, ... Physics of Plasmas 24 (3), 2017 | 80 | 2017 |
| Deep learning: A guide for practitioners in the physical sciences BK Spears, J Brase, PT Bremer, B Chen, J Field, J Gaffney, M Kruse, ... Physics of Plasmas 25 (8), 2018 | 72 | 2018 |
| Making inertial confinement fusion models more predictive JA Gaffney, ST Brandon, KD Humbird, MKG Kruse, RC Nora, JL Peterson, ... Physics of Plasmas 26 (8), 2019 | 65 | 2019 |
| Hotspot conditions achieved in inertial confinement fusion experiments on the National Ignition Facility PK Patel, PT Springer, CR Weber, LC Jarrott, OA Hurricane, B Bachmann, ... Physics of Plasmas 27 (5), 2020 | 60 | 2020 |
| An analytic asymmetric-piston model for the impact of mode-1 shell asymmetry on ICF implosions OA Hurricane, DT Casey, O Landen, AL Kritcher, R Nora, PK Patel, ... Physics of Plasmas 27 (6), 2020 | 59 | 2020 |
| Deep learning for NLTE spectral opacities G Kluth, KD Humbird, BK Spears, JL Peterson, HA Scott, MV Patel, ... Physics of Plasmas 27 (5), 2020 | 35 | 2020 |
| 2022 review of data-driven plasma science R Anirudh, R Archibald, MS Asif, MM Becker, S Benkadda, PT Bremer, ... IEEE Transactions on Plasma Science, 2023 | 28 | 2023 |
| Cognitive simulation models for inertial confinement fusion: Combining simulation and experimental data KD Humbird, JL Peterson, J Salmonson, BK Spears Physics of Plasmas 28 (4), 2021 | 20 | 2021 |
| 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 | 18 | 2024 |
| Experiments conducted in the burning plasma regime with inertial fusion implosions JS Ross, JE Ralph, AB Zylstra, AL Kritcher, HF Robey, CV Young, ... arXiv preprint arXiv:2111.04640, 2021 | 15 | 2021 |
| Three dimensional low-mode areal-density non-uniformities in indirect-drive implosions at the National Ignition Facility DT Casey, OL Landen, E Hartouni, RM Bionta, KD Hahn, PL Volegov, ... Physics of Plasmas 28 (4), 2021 | 15 | 2021 |
| Parameter inference with deep jointly informed neural networks KD Humbird, JL Peterson, RG McClarren Statistical Analysis and Data Mining: The ASA Data Science Journal 12 (6 …, 2019 | 11 | 2019 |
| Adjoint-based sensitivity analysis for high-energy density radiative transfer using flux-limited diffusion KD Humbird, RG McClarren High Energy Density Physics 22, 12-16, 2017 | 11 | 2017 |
| Design of the first fusion experiment to achieve target energy gain AL Kritcher, AB Zylstra, CR Weber, OA Hurricane, DA Callahan, DS Clark, ... Physical Review E 109 (2), 025204, 2024 | 9 | 2024 |
| Observations and properties of the first laboratory fusion experiment to exceed a target gain of unity A Pak, AB Zylstra, KL Baker, DT Casey, E Dewald, L Divol, ... Physical Review E 109 (2), 025203, 2024 | 8 | 2024 |
