共查询到20条相似文献,搜索用时 31 毫秒
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A method for enhancing trapped electrons in the laser wake-field acceleration in dilute plasma is proposed. In this method, a thin layer with near critical density is placed in front of the dilute plasma. Upon interaction of this layer with a short and high power laser pulse, a relatively large number of layer electrons are injected in dilute plasma. Some of these electrons are trapped in the wake-field of transmitted laser pulse. Particle in cell simulation is used to demonstrate this method. Simulations showed that in addition to increasing the number of trapped electrons, this mechanism also reduces the energy broadening. 相似文献
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It is shown that stochastic heating can play an important role in Laser Wake Field Acceleration. When considering low density plasma interacting with a high intensity wave perturbed by a low intensity counterpropagating wave, stochastic heating can provide electrons with the right momentum for trapping in the wake field. The influence of stochastic acceleration on the trapping of electrons is compared to the one of cold injection by considering several polarizations of the colliding pulses. For some value of the plasma density and pulse duration, a transition from an injection due to stochastic acceleration to a cold injection dominated regime – regarding the trapped charge – has been observed from PIC code simulations. When the plasma density exceeds some value, stochastic heating becomes important and is necessary in some circumstances to get electrons trapped into the wakefield. 相似文献
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研究了紧聚焦的圆偏振飞秒相对论高斯激光脉冲与电子的相互作用,提出了一种激光加速电子的新机制.利用束腰小、强度大的激光脉冲上升沿加速电子,束腰大、强度小的脉冲下降沿减速电子,当光脉冲和电子分离时,电子获得了能量增益.研究发现,初始静止的电子与强度高于1019Wμm2/cm2的光脉冲作用以后,可以获得MeV量级的能量.初始位于焦点附近的电子被加速的效果较好,而远离焦点的电子几乎不能获得能量增益.
关键词:
电子加速
能量增益
高斯脉冲
束腰 相似文献
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Seungwoo Lee Han Sup Uhm Tae Yeon Kang Min Sup Hur Hyyong Suk 《Current Applied Physics》2019,19(4):464-469
We propose a new idea to enhance and control the betatron radiation by using a modulating laser pulse in laser wakefield acceleration. In this scheme, a high-power laser pulse is used for self-trapping and acceleration of the plasma electrons and the accelerated electron beam is modulated by a separately-propagating laser pulse for large amplitude betatron oscillations and microbunching. In this way, the relatively low power modulating laser pulse can enhance the X-ray photon flux and energy significantly. We performed two-dimensional particle-in-cell simulations to demonstrate the idea and the results show that a sub-TW laser pulse is enough for electron beam modulation and it can generate easily-controllable fs X-ray pulses with a wide range of photon energies from soft X-rays to hard X-rays. 相似文献
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S.Z. Shuja 《Optics & Laser Technology》2011,43(4):767-775
The flow field developed in the laser produced melt pool is investigated and the influence of the Marangoni effect on temperature field is examined. The experiment is carried out to trace the solidified melt pool geometry and the heating is simulated in line with the experimental conditions to predict the melt size in the irradiated region. In the simulations, the control volume approach is used incorporating the Marangoni effect. The enthalpy-porosity method is adopted to account for the phase change in the irradiated region. The study is extended to include the influence of the laser intensity parameter (β) on temperature and the flow field in the melt pool. It is found that the melt pool geometry and the flow field in the melt pool is influenced by the laser intensity parameter. In this case, the number of circulation cell formed in the melt pool is doubled for the intensity parameter 0.4≤β≤0.6. The predictions of the melt pool geometry agree well with the experimental data. 相似文献
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The direct acceleration of electrons by using two crossed linearly polarized Bessel beams with equal frequency and amplitude in vacuum is studied and compared with the case of single linearly polarized Bessel beam. It is found that two zeroth- and first-order Bessel beams with π-rad phase difference have a nonvanishing longitudinal electric field on the z-axis, which can be maximized under certain conditions and used to accelerate electrons. Two crossed zeroth- and first-order Bessel beams have a larger maximum longitudinal electric field on the z-axis than that of a single first-order Bessel beam, and are suited for laser electron acceleration. 相似文献
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Zhilin Xia 《Optics Communications》2011,284(6):1637-1641
A physical model of the laser induced electron transport in dielectric with small size is discussed. The model assumes that free electrons are originally existent or produced by impact detrapping. The free electrons transporting in low dimensional dielectrics interact with phonons and surface. When the laser electric field strength is high enough, the inelastic electron scattering such as impact ionization and cascade processes will play important roles. A small size effect has been found in electron absorbing laser energy under the conditions that the laser wavelength is in near infrared zone and the material has size in nanometer level. This is a very significative effect to enlighten us on preparing ultrahigh threshold laser films with new nano-structure. 相似文献
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在SILEX-Ⅰ激光装置上,测量了超短超强激光脉冲与稀薄等离子体相互作用之后的透射谱. 实验中发现,激光尾波场产生的密度扰动导致等离子体折射率随时间空间不断变化,导致光子的加速/减速. 透射谱上主要表现为激光频率谱峰的劈裂和随密度变化的展宽,没有发现与前向受激拉曼散射或自调制不稳定性相联系的边频波. 同时,利用LPIC++无碰撞粒子模拟程序模拟了超短超强激光与稀薄等离子体相互作用后的透射谱,模拟结果也发现了明显的光子加速过程.
关键词:
超短超强激光脉冲
透射谱
光子加速/减速 相似文献
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Within the framework of plane-wave angular spectrum analysis of the electromagnetic field structure, a solution valid for tightly focused radially polarized few-cycle laser pulses propagating in vacuum is presented. The resulting field distribution is significantly different from that based on the paraxial approximation for pulses with either small or large beam diameters. We compare the electron accelerations obtained with the two solutions and find that the energy gain obtained with our new solution is usually much larger than that with the paraxial approximation solution. 相似文献
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电子俘获是激光尾波场加速电子的主要机理,增大电子的初速度可以使更多的电子被尾波场俘获.提出三角脉冲激发尾波加速电子的方案,三角脉冲平缓上升沿激发受激Raman散射,用以初步加速电子,三角脉冲陡峭下降沿激发尾波场,将更多的电子加速到接近光速.2D3V粒子模拟结果证实了这一点.同时表明:脉冲长度为几个等离子体波长的超强激光在稀薄等离子体中传播时,还激发侧向Raman散射.在侧向受激Raman散射中,静电波增长最快的波矢模式为kp=(2ωp/ω0
关键词:
有质动力
电子俘获
前向受激Raman散射
侧向受激Raman散射 相似文献
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采用光学多通道分析仪等设备对532nm YAG激光诱导产生的Al等离子体光谱进行了时空分辨测量,得到了等离子体时空分辨光谱。利用局部热平衡(LTE)模型和谱线的Stark展宽计算得到了等离子体电子温度和电子密度的时空演化曲线,获得了与文献[9~11]一致的结果。 相似文献
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Having adopted several sets of new technology and techniques, we have developed a new type of laser angle sensor that can be used to measure two-dimensional (2D) angle of moving target. On this basis, a new design for 2D acceleration laser sensor has been advanced. The optics-type sensor can be used to measure 2D acceleration of motion object, and it has high sensitivity, high precision and longer measuring range. Under these design parameters that are given in this paper, the measuring range will achieve 177 g, while its sensitivity is 13.5 s2. The experimental results show that the measuring error is not greater than 0.1 g. In this paper, several design parameters and measuring results for 2D acceleration laser sensor are given. 相似文献
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