Experimental Implementation of Metasurfaces for Secure Multi‐Channel Image Encryption in the Infrared

Audhkhasi, Romil; Lien, Max R.; Povinelli, Michelle L.

doi:10.1002/adom.202203155

Advanced Optical Materials

2023

DOI: 10.1002/adom.202203155

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Experimental Implementation of Metasurfaces for Secure Multi‐Channel Image Encryption in the Infrared

Romil Audhkhasi

Max R. Lien

Michelle L. Povinelli

Abstract: The ability to tailor light–matter interactions using artificially engineered materials has opened up new avenues for secure data storage and communication. This work presents an experimental investigation of metasurfaces for secure, multi‐channel image encryption in the infrared (IR). The proposed metasurfaces consist of an array of pixels, each designed to produce a wavelength‐ and polarization‐dependent IR absorptivity. A basis set of pixels is designed for encrypting images of arbitrary resolution on a giv… Show more

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Cited by 6 publications

(3 citation statements)

References 37 publications

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“…The additional gratings W 2 and W 3 support additional resonances that can be used to broaden an MIM’s absorption spectrum. 44 − 48 Figure 2 c shows the measured (FTIR) and simulated (FDTD) absorption spectra of the double-resonator system in Figure 2 a. Two resonant peaks are observable, which arise from the inclusion of the two distinct grating widths, W 1 and W 2 .…”

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confidence: 99%

Black Phosphorus Molybdenum Disulfide Midwave Infrared Photodiodes with Broadband Absorption-Increasing Metasurfaces

Lien,

Wang,

Guadagnini

et al. 2023

Nano Lett.

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Black phosphorus (BP) has been established as a promising material for room temperature midwave infrared (MWIR) photodetectors. However, many of its attractive optoelectronic properties are often observable only at smaller film thicknesses, which inhibits photodetector absorption and performance. In this work, we show that metasurface gratings increase the absorption of BP-MoS 2 heterojunction photodiodes over a broad range of wavelengths in the MWIR. We designed, fabricated, and characterized metasurface gratings that increase absorption at selected wavelengths or broad spectral ranges. We evaluated the broadband metasurfaces by measuring the room temperature responsivity and specific detectivity of BP-MoS 2 photodiodes at multiple MWIR wavelengths. Our results show that broadband metasurface gratings are a scalable approach for boosting the performance of BP photodiodes over large spectral ranges.

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mentioning

confidence: 99%

Black Phosphorus Molybdenum Disulfide Midwave Infrared Photodiodes with Broadband Absorption-Increasing Metasurfaces

Lien,

Wang,

Guadagnini

et al. 2023

Nano Lett.

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“…The combination of channels of spectra and polarization can increase the encryption capacity and security. 29 Nevertheless, high fabrication cost and long preparation time could limit the applications of metasurfaces. 30 Therefore, a spectral encryption strategy that offers a large capacity and a high level of security is preferable.…”

mentioning

confidence: 99%

“…The metasurface, with the exceptional capacity to manipulate the spectrum of light, is another common way to realize narrowband spectral channel encryption. The combination of channels of spectra and polarization can increase the encryption capacity and security . Nevertheless, high fabrication cost and long preparation time could limit the applications of metasurfaces .…”

mentioning

confidence: 99%

Multiple-Channel Information Encryption Based on Quantum Dot Absorption Spectra

Liu,

Zhu

et al. 2023

ACS Nano

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Large-capacity information encryption has attracted significant interest in the information age. The diversity and controllability of spectra have positioned them to be widely applied for information encryption. Current spectra-based information encryption methods commonly rely on either spectral alteration induced by external stimuli or the utilization of narrowband channels within spectra. However, these methods encounter a common challenge in attaining both high security and large capacity simultaneously. To address these issues, we propose a multiple-channel information encryption system based on quantum dot (QD) absorption spectra. The diversity of QD absorption spectra and their broadband features ensure that the encrypted spectra can hardly be decrypted without knowing the correct channel matrix. Meanwhile, the large capacity is realized through the combination of multiple QD spectral channels with a theoretical maximum capacity of 24.0 bits in a single spectrum. In order to optimize the performance of our proposed system, the selection principle of the channel matrix is established to achieve the rapid identification of the optimal channel matrix in several milliseconds. The additivity of QD spectral channels and the consistency of QD spectra are also explored to minimize the impact of errors on information decryption. Furthermore, two spectral encryption scenarios of spatial pattern and spectral pattern are applied to demonstrate the feasibility, showcasing their ability to achieve both a high level of security and large capacity. Owing to the advantages offered by QD spectra, the QD spectra-based information system exhibits excellent potential for broader applications in information storage, authentication, and computing.

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Wide‐Angled Pragmatic Dielectric Chiral Meta‐Platform for Spin‐ and Wavelength‐Multiplexed Holography in the Ultraviolet and Visible

Asad,

Seong,

Khaliq

et al. 2024

Adv Funct Materials

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A chiral meta‐optics platform that incorporates hologram‐multiplexing with low phase distortion and wide‐incident angle tolerance over the broad spectral range of the ultraviolet‐visible (UV–vis) regimes holds great potential for photonic‐encryption‐based applications, particularly in next‐generation 3D displays, high‐resolution biomedical imaging, holographic anti‐counterfeiting labeling, and multi‐channel optical communication. However, the design incorporating giant chirality from UV–vis wavelengths coupled with wide‐incident‐angle tolerance and cost‐effective fabrication is still challenging. Here, the study introduces a pragmatic multifunctional dielectric chiral meta‐platform designed for simultaneous spin‐ and wavelength‐multiplexing of optical information in the UV–vis spectrum. The unit cell comprises a dimer structure based on wide‐bandgap silicon nitride (SiNx), ensuring substantial dual‐spectrum chiro‐optical effects. The meticulously engineered chiral meta‐platform offers an incident angle tolerance of up to 40 degrees, coupled with significant chiro‐optical transmission. To demonstrate the concept, two distinct phase profiles are embedded in the meta‐platform, utilizing the spin and wavelength of incident light as keys to unlock the specific holographic information. The chiral meta‐platform is experimentally validated for oblique illumination angles, showcasing its adaptability across the UV–vis spectrum. The demonstrated meta‐device with dual‐spectrum visual encryption can be applied in various anti‐counterfeiting and security applications.

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Experimental Implementation of Metasurfaces for Secure Multi‐Channel Image Encryption in the Infrared

Cited by 6 publications

References 37 publications

Black Phosphorus Molybdenum Disulfide Midwave Infrared Photodiodes with Broadband Absorption-Increasing Metasurfaces

Black Phosphorus Molybdenum Disulfide Midwave Infrared Photodiodes with Broadband Absorption-Increasing Metasurfaces

Multiple-Channel Information Encryption Based on Quantum Dot Absorption Spectra

Wide‐Angled Pragmatic Dielectric Chiral Meta‐Platform for Spin‐ and Wavelength‐Multiplexed Holography in the Ultraviolet and Visible

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