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Electro-optic spatial light modulator from an engineered organic layer

Author

Listed:
  • Ileana-Cristina Benea-Chelmus

    (Harvard University)

  • Maryna L. Meretska

    (Harvard University)

  • Delwin L. Elder

    (University of Washington)

  • Michele Tamagnone

    (Harvard University)

  • Larry R. Dalton

    (University of Washington)

  • Federico Capasso

    (Harvard University)

Abstract

Tailored nanostructures provide at-will control over the properties of light, with applications in imaging and spectroscopy. Active photonics can further open new avenues in remote monitoring, virtual or augmented reality and time-resolved sensing. Nanomaterials with χ(2) nonlinearities achieve highest switching speeds. Current demonstrations typically require a trade-off: they either rely on traditional χ(2) materials, which have low non-linearities, or on application-specific quantum well heterostructures that exhibit a high χ(2) in a narrow band. Here, we show that a thin film of organic electro-optic molecules JRD1 in polymethylmethacrylate combines desired merits for active free-space optics: broadband record-high nonlinearity (10-100 times higher than traditional materials at wavelengths 1100-1600 nm), a custom-tailored nonlinear tensor at the nanoscale, and engineered optical and electronic responses. We demonstrate a tuning of optical resonances by Δλ = 11 nm at DC voltages and a modulation of the transmitted intensity up to 40%, at speeds up to 50 MHz. We realize 2 × 2 single- and 1 × 5 multi-color spatial light modulators. We demonstrate their potential for imaging and remote sensing. The compatibility with compact laser diodes, the achieved millimeter size and the low power consumption are further key features for laser ranging or reconfigurable optics.

Suggested Citation

  • Ileana-Cristina Benea-Chelmus & Maryna L. Meretska & Delwin L. Elder & Michele Tamagnone & Larry R. Dalton & Federico Capasso, 2021. "Electro-optic spatial light modulator from an engineered organic layer," Nature Communications, Nature, vol. 12(1), pages 1-10, December.
  • Handle: RePEc:nat:natcom:v:12:y:2021:i:1:d:10.1038_s41467-021-26035-y
    DOI: 10.1038/s41467-021-26035-y
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    References listed on IDEAS

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    1. Pin Chieh Wu & Ragip A. Pala & Ghazaleh Kafaie Shirmanesh & Wen-Hui Cheng & Ruzan Sokhoyan & Meir Grajower & Muhammad Z. Alam & Duhyun Lee & Harry A. Atwater, 2019. "Dynamic beam steering with all-dielectric electro-optic III–V multiple-quantum-well metasurfaces," Nature Communications, Nature, vol. 10(1), pages 1-9, December.
    2. Johann Riemensberger & Anton Lukashchuk & Maxim Karpov & Wenle Weng & Erwan Lucas & Junqiu Liu & Tobias J. Kippenberg, 2020. "Massively parallel coherent laser ranging using a soliton microcomb," Nature, Nature, vol. 581(7807), pages 164-170, May.
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    1. Ileana-Cristina Benea-Chelmus & Sydney Mason & Maryna L. Meretska & Delwin L. Elder & Dmitry Kazakov & Amirhassan Shams-Ansari & Larry R. Dalton & Federico Capasso, 2022. "Gigahertz free-space electro-optic modulators based on Mie resonances," Nature Communications, Nature, vol. 13(1), pages 1-9, December.
    2. Atsushi Shibukawa & Ryota Higuchi & Gookho Song & Hideharu Mikami & Yuki Sudo & Mooseok Jang, 2024. "Large-volume focus control at 10 MHz refresh rate via fast line-scanning amplitude-encoded scattering-assisted holography," Nature Communications, Nature, vol. 15(1), pages 1-10, December.
    3. Hyounghan Kwon & Tianzhe Zheng & Andrei Faraon, 2022. "Nano-electromechanical spatial light modulator enabled by asymmetric resonant dielectric metasurfaces," Nature Communications, Nature, vol. 13(1), pages 1-8, December.
    4. Hong Wang & Baipeng Yin & Junli Bai & Xiao Wei & Wenjin Huang & Qingda Chang & Hao Jia & Rui Chen & Yaxin Zhai & Yuchen Wu & Chuang Zhang, 2024. "Giant magneto-photoluminescence at ultralow field in organic microcrystal arrays for on-chip optical magnetometer," Nature Communications, Nature, vol. 15(1), pages 1-9, December.

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