Litcius/Paper detail

Improving the Energy Conversion Efficiency of a Laser-Driven Flyer by an In Situ-Fabricated Nano-absorption Layer

Liang Wang, Yichao Yan, Xiangbo Ji, Wanli Zhang, Hongchuan Jiang, Wenzhi Qin, Yao Wang, Duo Tang

2020Nanoscale Research Letters12 citationsDOIOpen Access PDF

Abstract

Three kinds of Al flyer plates with different nanostructured absorption layers were in situ prepared by a direct laser writing technology to improve the energy conversion efficiency in a laser-driven flyer assembly. Microstructures, light absorption, and flyer velocity in the acceleration chamber were investigated. The reflectance for the flyers at 1064-nm wavelength can be reduced from 81.3 to 9.8% by the nanostructured absorption layer. The terminal velocity of a 50-μm-thick Al flyer irradiated by a 60-mJ laser pulse is 831 m/s, while the velocity of the flyer with an in situ-fabricated nano-absorption layer reaches up to 1113 m/s at the same condition. Resultantly, the energy conversion efficiency of the flyer with a nanostructure absorption layer can reach as high as 1.99 times that of the Al flyer. Therefore, the nanostructured absorption layer in situ prepared on the surface of a flyer provides a new method to significantly improve the energy conversion efficiency of a laser-driven flyer.

Topics & Concepts

NanochemistryMaterials scienceIn situNano-Layer (electronics)Absorption (acoustics)NanotechnologyLaserAbsorption efficiencyEngineering physicsOpticsComposite materialEngineeringChemistryPhysicsAnimal scienceOrganic chemistryBiologyLaser-Ablation Synthesis of NanoparticlesLaser-induced spectroscopy and plasmaDiamond and Carbon-based Materials Research