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by
DrYongsheng Huang
(China Institute of Atomic Energy)
→
Asia/Shanghai
A511
A511
Description
At the end of last century, a series of breakthroughs were made in the researchs of laser-particle acceleration, intense radiation technology and laser-nuclear physics since the great progress of the technology of ultrashort and ultraintense lasers. When an ultraintense laser pulse interacts with matters, the strong charge-separation field supports competely new machenisms for minimization of particle accelerators. At the same time, the ultrainense x-rays and gamma-rays generated have distinctive advantages. What is even more exciting is that, the combination of ultraintense lasers, the conventional accelerators and nuclear physics will provide a large scientific research platform for laser-nulear physics. The platform is the unprecedented opportunity of laser-nulcear physics and also supplies the advanced energy-tunable monochromatic gamma rays for defense-related science.
摘要 :上世纪末超短超强激光技术迅猛发展,使得激光粒子加速、强辐射技术以及激光核物理取得了一系列的突破性进展。当一束超强激光与物质相互作用时,超强的电菏分离场为粒子加速器小型化提供了崭新的机制,同时产生的强的x射线和伽马射线也具有独特的优势。更令人激动的是,强激光技术、加速器技术与核物理的结合,将产生激光核物理的大型科学研究平台。这不仅仅将从科学上为光核物理提供前所未有的工具,也将为国防军事应用提供独一无二的单能、可调、全能曲覆盖的伽马光源。
