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王乃彦. 激光核物理[J]. 物理, 2008, 37(09): 621-624.
引用本文: 王乃彦. 激光核物理[J]. 物理, 2008, 37(09): 621-624.
Nuclear laser physics[J]. PHYSICS, 2008, 37(09): 621-624.
Citation: Nuclear laser physics[J]. PHYSICS, 2008, 37(09): 621-624.

激光核物理

Nuclear laser physics

  • 摘要: 在最近十年,激光技术有了长足的进展,激光的强度超过了1022W/cm2, 激光的电场达到~4×1012V/cm.当这种高强度的激光照射在靶上时,可以产生许多由激光产生的核反应现象.在这篇文章中,作者回顾了这一领域的研究进展,并对在不远的未来激光产生电子、质子、中子、X射线和正电子发展的潜力进行了一些讨论.

     

    Abstract: Outstanding progress in laser technology has been realized in the last decade. Laser intensities can now exceed 1022W/cm2 with the electric field reaching ~4×1012 V/cm. When targets are irradiated by such high intensities, laser driven nuclear reactions can occur. Here we review the developments in this field and describe the potential of laser-induced electron, proton, neutron, X-ray and positron production in the near future.

     

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