强激光与粒子束2026,Vol.38Issue(3):53-60,8.DOI:10.11884/HPLPB202638.250412
郑州大学超短超强激光平台建设及研究进展
Ultrafast and ultraintense laser facility at Zhengzhou University:Recent progress
摘要
Abstract
The emergence and rapid advancement of ultrafast and ultraintense lasers have created unprecedented extreme physical conditions and novel experimental methods,significantly deepening and expanding our understanding of the laws governing the objective world.These developments have greatly promoted innovation in basic and frontier interdisciplinary fields as well as strategic high technology areas.Particle acceleration using the interaction of ultrafast and ultraintense lasers with plasmas is regarded as a next-generation technology for accelerators and radiation sources.It offers the potential to shrink the footprint of conventional accelerator facilities by two orders of magnitude.This dramatic reduction in size greatly expands the applicability of accelerator and radiation source technologies in industry,national defense,medicine,and scientific research,enabling transformative possibilities such as precision nondestructive testing of critical components,ultralow dose and high precision tumor diagnostics,novel low damage radiotherapy methods,and tabletop ultrafast light sources.The ultrafast and ultraintense laser platform at Zhengzhou University introduced in this paper is precisely such a next-generation facility dedicated to advanced laser accelerator research and applications.In addition,this article provides a systematic review of the significant progress achieved by Zhengzhou University in recent years in strong-field physics and advanced accelerator science.关键词
超短超强激光/中原之光/激光等离子体尾波场加速/超高能电子放疗/真空正负电子对产生Key words
ultrafast and ultraintense laser/Zhongyuan Light/laser-driven plasma wakefield acceleration/very high energy electron radiotherapy/electron-positron pair creation from vacuum分类
数理科学引用本文复制引用
万阳,李传可,彭波,宋怀航,鲁巍,Malka Victor..郑州大学超短超强激光平台建设及研究进展[J].强激光与粒子束,2026,38(3):53-60,8.基金项目
国家自然科学基金项目(12447120、12574380) (12447120、12574380)
中国科学院战略性先导科技专项(XDB0530000) (XDB0530000)
河南省自然科学基金项目(252300421300) (252300421300)
