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首页> 外文会议>International Conference on Computational Science and Its Applications >Particle Charging Using Ultra-Short Pulse Laser in the Ideal Maxwellian Cold Plasma for Cancer Treatment Based on Hadron Therapy
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Particle Charging Using Ultra-Short Pulse Laser in the Ideal Maxwellian Cold Plasma for Cancer Treatment Based on Hadron Therapy

机译:基于强子治疗的癌症治疗,使用超短脉冲激光使用超短脉冲激光进行颗粒充电

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In biomedicine the utilization of accelerators, enables the arrangements of mixes to be utilized in cancer treatment. Accelerators are the standout among the most imperative uses of the electric and attractive fields manage the movement of charged particles. Additionally, the investigation of the plasma requires the examination of the charged particle movements in an electromagnetic field. The laser driven acceleration of particles is a standout among the most critical utilization of the laser plasma interaction. This plan depends on the alteration of the laser electromagnetic field into the plasma wave. These high stage velocity plasma waves can trap and quicken plasma electrons to exceptionally high energies. The plasma condition of issue might be characterized as a blend of decidedly charged ions, electrons and impartial atoms which comprises a perceptible electrically unbiased medium which reacts to the electric and attractive fields in an aggregate mode. In ideal Maxwellian plasma, the energy distribution function of charged particles is Maxwellian and subordinates from Maxwell-Boltzmann distribution. Cold plasma spoke to extremely helpful apparatuses empowering interaction with organic tissue without the warm harm and this innovation improvement brought about the quick formation of another field of plasma medication. Consequently, Hadron therapy is a high-precision procedure in cancer radiation therapy, which permits getting a better conformal treatment with deference than conventional radiation therapy strategies which depends on particle accelerating. This paper surveys on ions importance as charged particles with ultra-short pulse laser in an ideal Maxwellian cold plasma due to cancer treatment via Hadron therapy.
机译:在生物医学的利用中,促进剂,使得混合物的布置能够用于癌症治疗。加速器是电动和有吸引力的领域最令人必要的用途的突出管理,管理带电粒子的运动。另外,等离子体的研究需要检查电磁场中的带电粒子运动。激光驱动的颗粒加速度是激光等离子体相互作用的最关键利用率的突出。该计划取决于激光电磁场的改变进入等离子体波。这些高级速度等离子体波可以捕获和加速等离子体电子以极高的能量。问题的等离子体状况可以表征为不同的离子,电子和公正原子的混合物,其包含一种可察觉的电不偏的介质,其在骨料模式中与电动和有吸引力的场反应。在理想的Maxwell等离子体中,带电粒子的能量分布函数是Maxwell-Boltzmann分布的Maxwellian和下属。冷等离子体与极其有用的设备发表赋予与有机组织的相互作用,没有温暖的危害,这种创新改善带来了另一个血浆药物的快速形成。因此,强子疗法是癌症放射治疗中的高精度方法,这允许通过偏移的偏移更好地进行偏转治疗,而不是常规放射治疗策略,这取决于粒子加速。本文对INS的重要性,由于癌症治疗通过强子治疗,在理想的Maxwell寒冷等离子体中具有超短脉冲激光的带电粒子。

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