Dynamically stable radiation pressure propulsion of flexible lightsails for interstellar exploration

Gao, Ramon; Kelzenberg, Michael D.; Atwater, Harry A.

doi:10.1038/s41467-024-47476-1

Nat Commun

2024

DOI: 10.1038/s41467-024-47476-1

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Dynamically stable radiation pressure propulsion of flexible lightsails for interstellar exploration

Ramon Gao,

Michael D. Kelzenberg,

Harry A. Atwater

Abstract: Meter-scale, submicron-thick lightsail spacecraft, propelled to relativistic velocities via photon pressure using high-power density laser radiation, offer a potentially new route to space exploration within and beyond the solar system, posing substantial challenges for materials science and engineering. We analyze the structural and photonic design of flexible lightsails by developing a mesh-based multiphysics simulator based on linear elastic theory. We observe spin-stabilized flexible lightsail shapes and d… Show more

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Cited by 2 publications

References 55 publications

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All-optical damping forces enhanced by metasurfaces for stable relativistic lightsail propulsion

Lin,

de Sterke,

Wheatland

et al. 2024

Phys. Rev. Applied

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All-optical damping forces enhanced by metasurfaces for stable relativistic lightsail propulsion

Lin,

de Sterke,

Wheatland

et al. 2024

Phys. Rev. Applied

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High directional optical transmitter with phased array of nanoptical emitters and efficient error correction for long distance space communications

Bazzani,

Guglielmi,

Corvaja

et al. 2024

Phys. Rev. Research

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Communications in space are rapidly increasing in both capacity and extension. A satellite network in space calls for efficient and lightweight optical transmitters, suitable to communicate over distances going from the low-Earth-orbit to interplanetary links and beyond. To this aims, here we study the use of novel resources as an array of nanoptical coupler from guided sources and modulators to free space modes, that is phased with a suitable correction systems as well as efficient coding with error corrections capable of bearing large values of losses. We develop a method for designing such an array, which achieve a main lobe divergence of 1 µrad. We also discuss the lower and upper limits of the beam steering technique as a function of the array and emitter size, respectively. The optimization of grating couples (GCs) resulted an apodized structure with approximately 0.7 coupling efficiency and 70-µm beam waist. We also demonstrate the feasibility of phase correction and polarization modulation of the output mode by means of metalenses. The resulting link budget in terms of received photons on the Earth sets exceptional conditions for the digital optical communication system, for which a power efficient modulation scheme such as pulse position modulation (PPM) is considered. Here, we assess the PPM performance and we propose suitable channel coding schemes, essential to reduce the high bit error rate obtained in few-photon regime at the receiver. Published by the American Physical Society 2024

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Dynamically stable radiation pressure propulsion of flexible lightsails for interstellar exploration

Cited by 2 publications

References 55 publications

All-optical damping forces enhanced by metasurfaces for stable relativistic lightsail propulsion

All-optical damping forces enhanced by metasurfaces for stable relativistic lightsail propulsion

High directional optical transmitter with phased array of nanoptical emitters and efficient error correction for long distance space communications

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