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强太赫兹源是太赫兹科学技术发展的关键,其中大能量强场太赫兹脉冲源在超快物态调控、新型电子加速器等领域具有重要的应用前景.超快超强激光与等离子体相互作用是近年来发展起来的一种新型的强场太赫兹辐射产生途径.本文报道了利用超强飞秒激光脉冲与金属薄膜靶作用产生太赫兹辐射的实验结果,研究了激光能量和离焦量对靶后太赫兹辐射能量的影响,并通过监测激光背向散射光谱,定性揭示了其变化规律与不同光强下的电子加热机制的相关性.实验表征了太赫兹辐射的频谱、偏振及聚焦光斑情况.测量结果表明,实验产生了脉冲能量达458μJ、聚焦场强高达GV/m量级的超宽带太赫兹辐射,为开展极端太赫兹脉冲与物质相互作用研究提供了一种新的强场太赫兹光源. 相似文献
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Proton acceleration can be induced by non-equilibrium plasma developed by high-intensity laser pulses, at 1016 W/cm2, irradiating different types of thin polyethylene targets. The process of proton acceleration and directive yield emission was investigated, optimizing the laser parameters, the irradiation conditions, and the target properties. The use of 600 J pulse energy, a laser focalization inducing self-focusing effects and advanced targets with embedded nanoparticles and optimal thicknesses, has permitted to accelerate forward protons up to the energies of about 6 MeV and amount of the order of 1015 H+/pulse. High proton energy is obtained using thin foils enriched with gold nanoparticles, whereas high proton yield is obtained using targets with a thickness of about 10 μm. The plasma diagnostics using SiC semiconductor detectors in time-of-flight configuration was fundamental to monitor the optimal conditions to improve the plasma processes concerning the ion acceleration and the X-ray and relativistic electron emission. 相似文献
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采用Cauchy-Green积分公式和鞍点法,分析了激光与等离子体相互作用中SBBS的非稳定性.并数字模拟了在这种相互作用中离子声波的奇异相干特征. 相似文献
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研究了相对论效应引起的场量的非线性对谐波辐射源的影响;在入射光为长脉冲激光并计及各阶谐波间的耦合时,解析研究了三次谐波的振幅、频率、相位的变化及增长与饱和特性并计算了转化率,结果表明谐波间的耦合使幅值和转化率减少。 相似文献
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We present analytical studies of electron acceleration in the low-density preplasma of a thin solid target by an intense femtosecond laser pulse. Electrons in the preplasma are trapped and accelerated by the ponderomotive force as well as the wake field. Two-dimensional particle-in-cell simulations show that when the laser pulse is stopped by the target, electrons trapped in the laser pules can be extracted and move forward inertially. The energetic electron bunch in the bubble is unaffected by the reflected pulse and passes through the target with small energy spread and emittance. There is an optimal preplasma density for the generation of the monoenergetic electron bunch if a laser pulse is given. The maximum electron energy is inverse proportion to the preplasma density. 相似文献
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基于相对论性激光-等离子体动力学理论,研究了相对论性激光-等离子体系统中圆偏振入射脉冲激光和等离子体相互作用对激光脉冲宽度的影响. 具体分析了在不同初始物理参数下脉冲激光的脉冲宽度在等离子体传播过程中的变化情况,重点分析了激光脉冲在等离子中压缩. 计算结果表明增加入射激光的强度和入射脉冲宽度以及减小等离子体的初始密度,能够有效地实现脉冲宽度在等离子体中压缩;当激光脉冲的初始参数a0=0.12和τ=70以及等离子体密度n0=0.3时,脉冲宽度相对压缩T/τ接近于1/10,从而给出了激光压缩的理论优化参数.
关键词:
相对论性激光-等离子体
激光脉冲宽度
等离子体密度
自压缩 相似文献
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本文首次直接利用离子测量的结果,对实验数据进行理论分析与计算,详细讨论了激光等离子体,特别是线状激光等离子体的消融参量,给出了它们对激光辐照强度的定标律。 相似文献