Roadmap on wavefront shaping and deep imaging in complex media
Gigan, Sylvain; Katz, Ori; De Aguiar, Hilton B.; Andresen, Esben Ravn; Aubry, Alexandre; Bertolotti, Jacopo; Bossy, Emmanuel; Bouchet, Dorian; Brake, Joshua; Brasselet, Sophie; Bromberg, Yaron; Cao, Hui; Chaigne, Thomas; Cheng, Zhongtao; Choi, Wonshik; Čižmár, Tomáš; Cui, Meng; Curtis, Vincent R.; Defienne, Hugo; Hofer, Matthias; Horisaki, Ryoichi; Horstmeyer, Roarke; Ji, Na; LaViolette, Aaron K.; Mertz, Jerome; Moser, Christophe; Mosk, Allard P.; Pégard, Nicolas C.; Piestun, Rafael; Popoff, Sebastien; Phillips, David B.; Psaltis, Demetri; Rahmani, Babak; Rigneault, Hervé; Rotter, Stefan; Tian, Lei; Vellekoop, Ivo M.; Waller, Laura; Wang, Lihong; Weber, Timothy; Xiao, Sheng; Xu, Chris; Yamilov, Alexey; Yang, Changhuei; Yılmaz, Hasan
(2022) JPhys Photonics, volume 4, issue 4, pp. 1 - 73
(Article)
Abstract
The last decade has seen the development of a wide set of tools, such as wavefront shaping, computational or fundamental methods, that allow us to understand and control light propagation in a complex medium, such as biological tissues or multimode fibers. A vibrant and diverse community is now working in
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this field, which has revolutionized the prospect of diffraction-limited imaging at depth in tissues. This roadmap highlights several key aspects of this fast developing field, and some of the challenges and opportunities ahead.
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Keywords: adaptive optics, imaging, mesoscopic physics, microscopy, multimode fibers, scattering, wavefront shaping, Electronic, Optical and Magnetic Materials, Atomic and Molecular Physics, and Optics, Electrical and Electronic Engineering
ISSN: 2515-7647
Publisher: IOP PUBLISHING LTD
Note: Funding Information: This work is supported by the National Institutes of Health (U01NS118300). Funding Information: The authors acknowledge financial support from the Burroughs Wellcome fund (2018 CASI to NCP), and from the Arnold and Mabel Beckman Foundation (2021 BYI to NCP). Funding Information: D B P thanks the Royal Academy of Engineering, and the European Research Council (ERC starting Grant 804626) for their financial support. T C acknowledges (ERC consolidator Grant 724530) and the Ministry of Education, Youth and Sport of the Czech Republic (CZ.02.1.01/0.0/0.0/15_003/0000476). Funding Information: A A acknowledges funding from the European Research Council under the European Union’s Horizon 2020 Research and Innovation Program Grant No. 819261 (REMINISCENCE: REflection Matrix ImagiNg In wave SCiENCE). S M P and A A acknowledge funding from the Labex WIFI (ANR-10-LABX-24, ANR-10-IDEX-0001-02 PSL*). Funding Information: The author acknowledges funding from National Science Foundation (1813848, 1846784). Funding Information: The authors thank M Kühmayer for his help with editing the figures. A P M acknowledges support from the Nederlandse Organisatie voor Wetenschappelijk Onderzoek NWO (Vici 68047618), and S R acknowledges support by the Austrian Science Fund (FWF) under Project Number P32300 (WAVELAND). Funding Information: M C acknowledges the support by NIH Grants 1U01NS094341, U01NS107689, RF1MH120005, RF1MH1246611, U01NS118302, 1R01NS118330, R21EY032382, Purdue University, and the scientific equipment from HHMI. Funding Information: The authors thank their coworkers and collaborators who have contributed to the works described in this contribution. They also acknowledge financial support from National Science Foundation grants DMR-1905442, DMR-1905465, and from Office of Naval Research Grant N00014-20-1-2197. Funding Information: We acknowledge funding from EPSRC (UK, Grants EP/S026630/1 and EP/T00097X/1). Funding Information: Agence Nationale de la Recherche (ANR-14-CE17-0004-01 ‘LENIMBRA’); (ANR-20-CE19-0028 ‘NAIMA’); ANR-16-IDEX-0004 ULNE, LABEX CEMPI (ANR-11-LABX-0007), Equipex Flux (ANR-11-EQPX-0017), Turing Centre for Living Systems (ANR-16-CONV-0001), Ministry of Higher Education and Research, Hauts de France Council, European Regional Development Fund (CPER Photonics for Society) P4S), FiberTechLille Technology Platform (linky), NIH R21 EY029406-01, Aix Marseille University (A-M-AAP-ID-17-13-170228-15.22). Funding Information: Y B is supported by the Zuckerman STEM Leadership Program. H D acknowledges funding from the European Union’s Horizon 2020 research and innovation program under the Marie Skłodowska-Curie Grant No. 840958. Funding Information: The author acknowledges funding from the Dutch Research Council (14879) and the European Research Council (678919). Funding Information: We acknowledge funding from the European Research Council under the European Union’s Horizon 2020 Research and Innovation Program Grant Nos. 677909, 101002406, and the Israel Science Foundation (1361/18). Funding Information: This work has been funded by a National Science Foundation (NSF) Grant (DBI-1707312). Publisher Copyright: © 2022 The Author(s). Published by IOP Publishing Ltd.
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