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Photonic Laser Thruster: 100 Times Scaling-Up and Propulsion Demonstration

Young K. Bae

2020Journal of Propulsion and Power15 citationsDOI

Abstract

The Photonic Laser Thruster (PLT) efficiently uses photons as propellant and thus promises to enable innovative space endeavors beyond the reach of propellant-based conventional thrusters. Previously, the proof-of-principle demonstration of PLT used a neodymium-doped yttrium aluminum garnet (Nd:YAG) rod gain medium and resulted in the maximum thrust of . This Paper reports 100 times scaling up of PLT using a ytterbium-doped yttrium aluminum garnet (Yb:YAG) thin-disk gain medium and thought first demonstration of propelling and stopping a 0.75 kg mock cube satellite over 2 m in a Class-1000 cleanroom. A thrust stand for PLT was established with a radiation pressure sensor that reduced the thermal convection effect and the configuration complexity. The maximum achieved thrust and specific thrust were and , respectively. Further development of PLT using existing high-power laser technologies is projected to increase its specific thrust to , on a par with electric thrusters. The present results conclude that innovative PLT applications, such as propellant-free orbit maneuvering and stationkeeping, are within the reach of existing spacecraft and high-power laser technologies. In addition, the feasibility of PLT-based launchers and landers is discussed.

Topics & Concepts

PropellantThrustAerospace engineeringSpacecraft propulsionLaserPropulsionLaser propulsionMaterials scienceIon thrusterSpacecraftElectrically powered spacecraft propulsionOpticsYtterbiumPhysicsEngineeringPlasma Diagnostics and ApplicationsElectrohydrodynamics and Fluid DynamicsSpace Satellite Systems and Control
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