Please use this identifier to cite or link to this item: https://hdl.handle.net/10356/178907
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dc.contributor.authorZou, Hong-Yuen_US
dc.contributor.authorGe, Yongen_US
dc.contributor.authorZhao, Ke-Qien_US
dc.contributor.authorLu, Yu-Jingen_US
dc.contributor.authorSi, Qiao-Ruien_US
dc.contributor.authorYuan, Shou-Qien_US
dc.contributor.authorChen, Hongshengen_US
dc.contributor.authorSun, Hong-Xiangen_US
dc.contributor.authorYang, Yihaoen_US
dc.contributor.authorZhang, Baileen_US
dc.date.accessioned2024-07-10T05:27:50Z-
dc.date.available2024-07-10T05:27:50Z-
dc.date.issued2024-
dc.identifier.citationZou, H., Ge, Y., Zhao, K., Lu, Y., Si, Q., Yuan, S., Chen, H., Sun, H., Yang, Y. & Zhang, B. (2024). Acoustic metagrating holograms. Advanced Materials. https://dx.doi.org/10.1002/adma.202401738en_US
dc.identifier.issn0935-9648en_US
dc.identifier.urihttps://hdl.handle.net/10356/178907-
dc.description.abstractMetasurface holograms represent a common category of metasurface devices that utilize in-plane phase gradients to shape wavefronts, forming holographic images through the application of the generalized Snell's law (GSL). While conventional metasurfaces focus solely on phase gradients, metagratings, which incorporate higher-order wave diffraction, further expand the GSL's generality. Recent advances in certain acoustic metagratings demonstrate an updated GSL extension capable of reversing anomalous transmission and reflection, whose reversal is characterized by the parity of the number of wave propagation trips through the metagrating. However, the current extension of GSL remains limited to 1D metagratings, unable to access 2D holographic images in 3D spaces. Here, the GSL extension to 2D metagratings for manipulating waves within 3D spaces is investigated. Through this analysis, a series of acoustic metagrating holograms is experimentally demonstrated. These holographic images exhibit the unique ability to switch between transmission and reflection types independently. This study introduces an additional dimension to modern holography design and metasurface wavefront manipulation.en_US
dc.description.sponsorshipMinistry of Education (MOE)en_US
dc.description.sponsorshipNational Research Foundation (NRF)en_US
dc.language.isoenen_US
dc.relationNRF-CRP23-2019-000en_US
dc.relationMOE2019-T2-2-085en_US
dc.relation.ispartofAdvanced Materialsen_US
dc.rights© 2024 Wiley-VCH GmbH. . All rights reserved. This article may be downloaded for personal use only. Any other use requires prior permission of the copyright holder. The Version of Record is available online at: http://dx.doi.org/10.1002/adma.202401738.en_US
dc.subjectEngineeringen_US
dc.titleAcoustic metagrating hologramsen_US
dc.typeJournal Articleen
dc.contributor.schoolSchool of Physical and Mathematical Sciencesen_US
dc.contributor.researchCentre for Disruptive Photonic Technologies (CDPT)en_US
dc.identifier.doi10.1002/adma.202401738-
dc.description.versionSubmitted/Accepted versionen_US
dc.identifier.scopus2-s2.0-85194459438-
dc.subject.keywordsDiffractionsen_US
dc.subject.keywordsPhase modulationen_US
dc.description.acknowledgementThis work was supported by the National Natural Science Foundation ofChina under Grants No. 12274183, No. 12174159, and No. 51976079,the National Key Research and Development Program of China underGrant No. 2020YFC1512403, the Research Project of State Key Labora-tory of Mechanical System and Vibration under Grant No. MSV202201,the Postgraduate Research and Practice Innovation Program of Jiangsu Province under Grant No. KYCX23_3746, the Key Research and Develop-ment Program of the Ministry of Science and Technology under Grants No.2022YFA1405200, No. 2022YFA1404704, No. 2022YFA1404902, and No.2022YFA1404900, the National Natural Science Foundation of China un-der Grants No. 62175215 and No. 61975176, the Key Research and Devel-opment Program of Zhejiang Province under Grant No. 2022C01036, theFundamental Research Funds for the Central Universities (2021FZZX001-19), the Excellent Young Scientists Fund Program (Overseas) of China, theSingapore National Research Foundation (NRF) under Grant No. NRF-CRP23-2019-0007, and the Singapore Ministry of Education (MOE) underGrant No. MOE2019-T2-2-085en_US
item.grantfulltextembargo_20250528-
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