| Wrinkles and deep folds as photonic structures in photovoltaics JB Kim, P Kim, NC Pégard, SJ Oh, CR Kagan, JW Fleischer, HA Stone, ... Nature Photonics 6 (5), 327-332, 2012 | 419 | 2012 |
| Precise multimodal optical control of neural ensemble activity AR Mardinly, IA Oldenburg, NC Pégard, S Sridharan, EH Lyall, ... Nature neuroscience 21 (6), 881-893, 2018 | 253 | 2018 |
| Three-dimensional scanless holographic optogenetics with temporal focusing (3D-SHOT) NC Pégard, AR Mardinly, IA Oldenburg, S Sridharan, L Waller, H Adesnik Nature communications 8 (1), 1228, 2017 | 210 | 2017 |
| Compressive light-field microscopy for 3D neural activity recording NC Pégard, HY Liu, N Antipa, M Gerlock, H Adesnik, L Waller Optica 3 (5), 517-524, 2016 | 197 | 2016 |
| 3D computer-generated holography by non-convex optimization J Zhang, N Pégard, J Zhong, H Adesnik, L Waller Optica 4 (10), 1306-1313, 2017 | 194 | 2017 |
| DeepCGH: 3D computer-generated holography using deep learning MH Eybposh, NW Caira, M Atisa, P Chakravarthula, NC Pégard Optics Express 28 (18), 26636-26650, 2020 | 159 | 2020 |
| Roadmap on wavefront shaping and deep imaging in complex media S Gigan, O Katz, HB De Aguiar, ER Andresen, A Aubry, J Bertolotti, ... Journal of Physics: Photonics 4 (4), 042501, 2022 | 109 | 2022 |
| All‐Silicon Broadband Ultraviolet Metasurfaces Y Deng, X Wang, Z Gong, K Dong, S Lou, N Pégard, KB Tom, F Yang, ... Advanced Materials 30 (38), 1802632, 2018 | 47 | 2018 |
| Optimizing holographic data storage using a fractional Fourier transform NC Pégard, JW Fleischer Optics letters 36 (13), 2551-2553, 2011 | 37 | 2011 |
| Flow-scanning optical tomography MDJWF Nicolas C. Pégard, Marton L. Toth Lab on a Chip 14 (23), 4447-4450, 2014 | 33* | 2014 |
| A micromirror array with annular partitioning for high-speed random-access axial focusing NT Ersumo, C Yalcin, N Antipa, N Pégard, L Waller, D Lopez, R Muller Light: Science & Applications 9 (1), 183, 2020 | 32 | 2020 |
| Flow-based structured illumination CH Lu, NC Pégard, JW Fleischer Applied Physics Letters 102 (16), 2013 | 27 | 2013 |
| Spectral fiber photometry derives hemoglobin concentration changes for accurate measurement of fluorescent sensor activity WT Zhang, THH Chao, Y Yang, TW Wang, SH Lee, EA Oyarzabal, J Zhou, ... Cell reports methods 2 (7), 2022 | 23 | 2022 |
| Fluid channels for computational imaging in optofluidic microscopes JW Fleischer, TTOPU Pegard, NIcolas, C. US Patent App. 14/023,455, 2013 | 23* | 2013 |
| Three-dimensional deconvolution microfluidic microscopy using a tilted channel NC Pégard, JW Fleischer Journal of biomedical optics 18 (4), 040503-040503, 2013 | 23 | 2013 |
| DCGH: dynamic computer generated holography for speckle-free, high fidelity 3D displays VR Curtis, NW Caira, J Xu, AG Sata, NC Pégard 2021 IEEE Virtual Reality and 3D User Interfaces (VR), 1-9, 2021 | 21 | 2021 |
| Diffusion Thermopower of Tunnel Junctions T Naydenova, P Dürrenfeld, K Tavakoli, N Pégard, L Ebel, K Pappert, ... Physical review letters 107 (19), 197201, 2011 | 19 | 2011 |
| Three-dimensional multi-site random access photostimulation (3D-MAP) Y Xue, L Waller, H Adesnik, N Pégard Elife 11, e73266, 2022 | 17 | 2022 |
| Compressive plenoptic microscopy for functional brain imaging L Waller, H Adesnik, N Pegard US Patent 10,317,667, 2019 | 12 | 2019 |
| High-speed computer-generated holography using convolutional neural networks MH Eybposh, NW Caira, P Chakravarthula, M Atisa, NC Pégard Optics and the Brain, BTu2C. 2, 2020 | 10 | 2020 |
Laura WallerUC Berkeley在 alum.mit.edu 的电子邮件经过验证
