Journal Article10.1007/s41365-023-01174-7
On-chip stackable dielectric laser accelerator
Bin Sun,Yangfan He,Ruo-Yun Luo,Taiping Zhang,Qiang Zhou,Shao Yi Wang,Jian Zheng,Zong-Qing Zhao +7 more
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About: This article is published in Nuclear Science and Techniques. The article was published on 01 Feb 2023. The article focuses on the topics: Acceleration & Laser.
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Citations
On chip ultrafast stackable dielectric laser positron accelerator
Bin Sun,Yangfan He,Chenhao Pan,Sijie Fan,Du Wang,Shaoyi Wang,Zongqing Zhao +6 more
TL;DR: On-chip ultrafast stackable dielectric laser positron accelerator presents a novel approach to significantly reduce the physical dimensions of the positron acceleration apparatus, achieving high acceleration distance and energy gain with a seven-stage structure. The method also enables ultrafast sub-femtosecond beam compression.
1
Structure and material study of dielectric laser accelerators based on the inverse Cherenkov effect
TL;DR: In this paper , various combinations of dielectric materials and accelerated structures based on the inverse Cherenkov effect were explored to enhance the gradient of acceleration and the electron energy gain.
1
Dielectric laser accelerators driven by ultra-short, ultra-intense long-wave infrared lasers
Xuehan Mei,Rongwei Zha,Yiming Pan,Shaoyi Wang,Bin Sun,Cheng Lei,Changjun Ke,Zongqing Zhao,Du Wang +8 more
TL;DR: Dielectric laser accelerators driven by ultra-short, ultra-intense long-wave infrared lasers offer high acceleration gradients and compact chip-level structures, with LWIR lasers providing advantages in electric charge and energy divergence, enabling easier processing and larger acceleration channels.
Relativistic beam loading, recoil-reduction, and residual-wake acceleration with a covariant retarded-potential integrator
B. Folsom,Emanuele Laface +1 more
References
Demonstration of electron acceleration in a laser-driven dielectric microstructure
E. A. Peralta,Ken Soong,R. J. England,Eric R. Colby,Ziran Wu,Behnam Montazeri,C. McGuinness,Joshua McNeur,Kenneth J. Leedle,D.R. Walz,Esin B. Sozer,Benjamin M. Cowan,Brian T. Schwartz,Gil Travish,Robert L. Byer +14 more
TL;DR: The results set the stage for the development of future multi-staged DLA devices composed of integrated on-chip systems, and would substantially reduce the size and cost of a future collider on the multi-TeV (1012 eV) scale.
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Dielectric laser accelerators
R. Joel England,R. J. Noble,Karl Bane,David H. Dowell,C. Ng,James E. Spencer,Sami Tantawi,Ziran Wu,Robert L. Byer,E. A. Peralta,K. Soong,Chia-Ming Chang,Behnam Montazeri,Stephen J. Wolf,Benjamin M. Cowan,Jay W. Dawson,Wei Gai,Peter Hommelhoff,Yen-Chieh Huang,Chunguang Jing,C. McGuinness,Robert B. Palmer,Brian Naranjo,James Rosenzweig,Gil Travish,Amit Mizrahi,Levi Schächter,C.M.S. Sears,Gregory R. Werner,R. B. Yoder +29 more
TL;DR: In this paper, the authors reviewed the dielectric laser acceleration (DLA) scheme operating at typical laser pulse lengths of 1 to 1 ps, where the laser damage fluences correspond to peak surface electric fields in the Ω{GV}/\mathrm{m} regime.
434
Optical meta-waveguides for integrated photonics and beyond.
Yuan Meng,Yizhen Chen,Longhui Lu,Yimin Ding,Andrea Cusano,Jonathan A. Fan,Qiaomu Hu,Kaiyuan Wang,Zhenwei Xie,Zhoutian Liu,Yuanmu Yang,Qiang Liu,Mali Gong,Qirong Xiao,Shulin Sun,Minming Zhang,Xiaocong Yuan,Xingjie Ni +17 more
TL;DR: In this paper, the authors review recent advances in meta-structured waveguides that synergize various functional subwavelength photonic architectures with diverse waveguide platforms, such as dielectric or plasmonic waveguide and optical fibers.
276
3D printed gradient index glass optics.
Rebecca Dylla-Spears,Timothy D. Yee,Koroush Sasan,Du T. Nguyen,Nikola A. Dudukovic,Jason M. Ortega,Michael A. Johnson,Oscar D. Herrera,Frederick J. Ryerson,Lana L. Wong +9 more
TL;DR: Multimaterial 3D printing enables a novel approach to fabrication of glass optics with tailored refractive index gradients and can be used to achieve a variety of conventional and unconventional optical functions in a flat glass component with no surface curvature.
116
Picosecond pulse amplification in isotopic CO2 active medium.
TL;DR: Using a high-pressure carbon-dioxide laser amplifier enriched with the oxygen-18 isotope, a 5-ps, 10-µm pulse of the 1 TW peak power without splitting is produced.
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