Litcius/Paper detail

Efficiently accelerated free electrons by metallic laser accelerator

Dingguo Zheng, Siyuan Huang, Jun Li, Yuan Tian, Yongzhao Zhang, Zhongwen Li, Huanfang Tian, Huaixin Yang, Jianqi Li, Jianqi Li, Jianqi Li

2023Nature Communications11 citationsDOIOpen Access PDF

Abstract

Strong electron-photon interactions occurring in a dielectric laser accelerator provide the potential for development of a compact electron accelerator. Theoretically, metallic materials exhibiting notable surface plasmon-field enhancements can possibly generate a high electron acceleration capability. Here, we present a design for metallic material-based on-chip laser-driven accelerators that show a remarkable electron acceleration capability, as demonstrated in ultrafast electron microscopy investigations. Under phase-matching conditions, efficient and continuous acceleration of free electrons on a periodic nanostructure can be achieved. Importantly, an asymmetric spectral structure in which the vast majority of the electrons are in the energy-gain states has been obtained by means of a periodic bowtie-structure accelerator. Due to the presence of surface plasmon enhancement and nonlinear optical effects, the maximum acceleration gradient can reach as high as 0.335 GeV/m. This demonstrates that metallic laser accelerator could provide a way to develop compact accelerators on chip.

Topics & Concepts

LaserAccelerationElectronPlasmonLinear particle acceleratorFree electron modelPhysicsParticle acceleratorOpticsPhotonUltrashort pulseOptoelectronicsMaterials scienceBeam (structure)Nuclear physicsClassical mechanicsAdvanced Electron Microscopy Techniques and ApplicationsLaser-induced spectroscopy and plasmaIntegrated Circuits and Semiconductor Failure Analysis