Active Metasurfaces for Non‐Rigid Light Sail Interstellar Optical Communication

Taghavi, Mohammadrasoul; Sabri, Raana; Mosallaei, Hossein

doi:10.1002/adts.202300359

Advcd Theory and Sims

2023

DOI: 10.1002/adts.202300359

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Active Metasurfaces for Non‐Rigid Light Sail Interstellar Optical Communication

Mohammadrasoul Taghavi,

Raana Sabri,

Hossein Mosallaei

Abstract: The non‐rigidity of the nanophotonic metasail platform and the intense imparted optical force from the terrestrial laser source lead to deformations during the propulsion stage. These deformations must be taken into consideration due to their potential adverse impact on communication performance. Alterations in the shape of the sail body result in varying angles of incidence and polarization components observed by the photonic unit cell, significantly impacting their intended performance. Based on this premise… Show more

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2024

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Cited by 2 publications

References 106 publications

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Dynamic Scattering‐Channel‐Based Approach for Multiuser Image Encryption

Taghavi,

Marengo

2024

Advcd Theory and Sims

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Conventional scattering‐based encryption systems that operate based on a static complex medium which is used by all users are vulnerable to learning‐based attacks that exploit ciphertext‐plaintext pairs to model and reverse‐engineer the scattering medium's response, enabling unauthorized decryption without the physical medium. In this contribution, a new dynamic scattering‐channel‐based technique for multiuser image encryption is developed. The established approach employs variable, dynamic scattering media which are modeled as tunable aggregates of multiple scattering nanoparticles. The proposed system supports multiple users by allowing distinct combinations of scattering matrices for different time blocks, each combined with user‐specific complex‐valued coefficients, enabling the creation of unique, hard‐to‐guess encryption keys for each user. The derived methodology enhances the practical feasibility of multiuser secure communication and storage channels employing scattering media as the encryption mechanism.

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Dynamic Scattering‐Channel‐Based Approach for Multiuser Image Encryption

Taghavi,

Marengo

2024

Advcd Theory and Sims

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Electrostatic Orientation of Optically Asymmetric Janus Particles

Sadafi,

da Mota,

Mosallaei

2024

ACS Omega

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Janus micro-and nanoparticles, featuring unique dual-interface designs, are at the forefront of rapidly advancing fields such as optics, medicine, and chemistry. Accessible control over the position and orientation of Janus particles within a cluster is crucial for unlocking versatile applications, including targeted drug delivery, self-assembly, micro-and nanomotors, and asymmetric imaging. Nevertheless, precise mechanical manipulation of Janus particles remains a significant practical challenge across these fields. The current predominant methods, based on fluid flow, thermal gradients, or chemical reactions, have their precision and applicability limited by the properties of their background fluids. Therefore, this study proposes electrostatics to deliberately control the local orientation of optically asymmetric Janus particles (spherical and matchstick-like hybrid metal−dielectric objects) within a cluster to overcome the aforementioned restraints. We introduce a sophisticated multiphysics platform and employ it to explore and unveil the infrastructural physics behind the mechanical behavior of the particles when subjected to electrostatic stimuli in an ionic environment. We investigate how different deterministic and stochastic variables affect the particles' short-and long-term responses. By judicious engineering of amplitude, direction, and polarization of the external excitation, we demonstrate that the particles tend to undergo the desired rotational motion and converge to favorable orientations. The functionality of our approach is showcased in the context of an asymmetric imaging system based on optically asymmetric Janus particles. Our findings suggest a viable platform for adequate mechanical manipulation of Janus particles and pave the way for enabling numerous state-of-the-art applications in various fields.

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Active Metasurfaces for Non‐Rigid Light Sail Interstellar Optical Communication

Cited by 2 publications

References 106 publications

Dynamic Scattering‐Channel‐Based Approach for Multiuser Image Encryption

Dynamic Scattering‐Channel‐Based Approach for Multiuser Image Encryption

Electrostatic Orientation of Optically Asymmetric Janus Particles

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