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    Journals >Acta Optica Sinica >Volume 44 >Issue 3 >Page 0309001 > Article
    • Acta Optica Sinica
    • Vol. 44, Issue 3, 0309001 (2024)
    Multiplane Color Holographic Display Based on Time-Division Multiplexing
    Huadong Zheng1、2、*, Zhen Wang1, and Junchang Peng1
    Author Affiliations
  • 1School of Mechatronic Engineering and Automation, Shanghai University, Shanghai 200444, China
  • 2Key Laboratory of Advanced Display and System Application, Ministry of Education, Shanghai 200072, China
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    DOI: 10.3788/AOS231387 Cite this Article Set citation alerts
    Huadong Zheng, Zhen Wang, Junchang Peng. Multiplane Color Holographic Display Based on Time-Division Multiplexing[J]. Acta Optica Sinica, 2024, 44(3): 0309001 Copy Citation Text show less
    Phase-only hologram generation scheme based on DDM (ASM represents angular spectrum propagation, and z represents the reconstructed distance)
    Fig. 1. Phase-only hologram generation scheme based on DDM (ASM represents angular spectrum propagation, and z represents the reconstructed distance)
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    Flow chart of dynamic adjustment of compensation factor
    Fig. 2. Flow chart of dynamic adjustment of compensation factor
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    Generation scheme of single-color phase-only hologram based on time-division multiplexing
    Fig. 3. Generation scheme of single-color phase-only hologram based on time-division multiplexing
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    Numerical reconstruction results of single-color plane by using two methods. (a) Original image; (b)-(c) numerical reconstruction results by using DDM method; (d)-(e) numerical reconstruction results by using time-division multiplexing method
    Fig. 4. Numerical reconstruction results of single-color plane by using two methods. (a) Original image; (b)-(c) numerical reconstruction results by using DDM method; (d)-(e) numerical reconstruction results by using time-division multiplexing method
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    Comparison of correlation coefficients of single-plane reconstruction by using two methods. (a) DDM method; (b) time-division multiplexing method
    Fig. 5. Comparison of correlation coefficients of single-plane reconstruction by using two methods. (a) DDM method; (b) time-division multiplexing method
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    Numerical reconstruction results of three planes by using two methods. (a)-(c) Original images; (d)-(f) DDM method (T=1); (g)-(i) time-division multiplexing method (T=1); (j)–(l) DDM method (T=10); (m)-(o) time-division multiplexing method (T=10)
    Fig. 6. Numerical reconstruction results of three planes by using two methods. (a)-(c) Original images; (d)-(f) DDM method (T=1); (g)-(i) time-division multiplexing method (T=1); (j)–(l) DDM method (T=10); (m)-(o) time-division multiplexing method (T=10)
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    Comparison of correlation coefficients of three planes reconstruction by using two methods. (a) DDM method; (b) time-division multiplexing method
    Fig. 7. Comparison of correlation coefficients of three planes reconstruction by using two methods. (a) DDM method; (b) time-division multiplexing method
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    Optical path diagram of the color holographic display system
    Fig. 8. Optical path diagram of the color holographic display system
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    Optical reconstruction results of single-color image by using two methods. (a) Original image; (b)-(c) DDM method; (d)-(e) time-division multiplexing method
    Fig. 9. Optical reconstruction results of single-color image by using two methods. (a) Original image; (b)-(c) DDM method; (d)-(e) time-division multiplexing method
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    Optical reconstruction results of three planes by using two methods. (a)-(c) Original images; (d)-(f) DDM method (T=1); (g)-(i) DDM method (T=10); (j)–(l) time-division multiplexing method (T=1); (m)-(o) time-division multiplexing method (T=10)
    Fig. 10. Optical reconstruction results of three planes by using two methods. (a)-(c) Original images; (d)-(f) DDM method (T=1); (g)-(i) DDM method (T=10); (j)–(l) time-division multiplexing method (T=1); (m)-(o) time-division multiplexing method (T=10)
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    Numerical and optical reconstruction results of five color images based on time-division multiplexing method
    Fig. 11. Numerical and optical reconstruction results of five color images based on time-division multiplexing method
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    Huadong Zheng, Zhen Wang, Junchang Peng. Multiplane Color Holographic Display Based on Time-Division Multiplexing[J]. Acta Optica Sinica, 2024, 44(3): 0309001
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