【摘 要】
:
X-ray drive asymmetry is one of the main seeds of low-mode implosion asymmetry that blocks further improvement of the nuclear performance of “high-foot” experiments on the National Ignition Facility [Miller et al., Nucl. Fusion 44, S228 (2004)]. More part
【机 构】
:
InstituteofAppliedPhysicsandComputationalMathematics,Beijing100094,ChinaGraduateSchool,ChinaAcademyo
【出 处】
:
MatterandRadiationatExtremes
论文部分内容阅读
X-ray drive asymmetry is one of the main seeds of low-mode implosion asymmetry that blocks further improvement of the nuclear performance of “high-foot” experiments on the National Ignition Facility [Miller et al., Nucl. Fusion 44, S228 (2004)]. More particularly, the P2 asymmetry of Au's M-band flux can also severely influence the implosion performance of ignition capsules [Li et al., Phys. Plasmas 23, 072705 (2016)]. Here we study the smoothing effect of mid- and/or high-Z dopants in ablator on Au's M-band flux asymmetries, by modeling and comparing the implosion processes of a Ge-doped ignition capsule and a Si-doped one driven by X-ray sources with P2 M-band flux asymmetry. As the results, (1) mid- or high-Z dopants absorb hard X-rays (M-band flux) and re-emit isotropically, which helps to smooth the asymmetric Mband flux arriving at the ablation front, therefore reducing the P2 asymmetries of the imploding shell and hot spot; (2) the smoothing effect of Ge-dopant is more remarkable than Si-dopant because its opacity in Au's M-band is higher than the latter's; and (3) placing the doped layer at a larger radius in ablator is more efficient. Applying this effect may not be a main measure to reduce the low-mode implosion asymmetry, but might be of significance in some critical situations such as inertial confinement fusion (ICF) experiments very near the performance cliffs of asymmetric X-ray drives.
其他文献
We propose an improved algorithm based on fractal dimension and third-order characterization to detect dim target with cluttered background in an infrared (IR) image. We also illustrate the performance and efficiency comparisons between the presented algo
Erbium-doped glass showing the wider 1.5-um emission band is reported in a novel oxide system TeO_{2}-WO_{3}-Nb_{2}O_{5} and their thermal stability and optical properties such as absorption, emission spectra, cross-sections and fluorescence lifetime were
研究了由约瑟夫森结耦合的两个超导电荷量子比特模型中的几何量子失协和稠密编码信道容量。 讨论了初始平均光子数、相对相位和两电荷量子比特间振幅对几何量子失协和稠密编码信道容量的影响。 结果表明,初始平均光子数、相对相位和两电荷量子比特间振幅在几何量子失协及稠密编码信道容量的动 力学演化过程中扮演了一个非常重要的角色,特别有意义的是可以通过调控相对相位来提高稠密编码信道容量的值。
研究的星载被动大气探测仪搭载于太阳同步轨道卫星,具有扫描型多模式探测功能,主要探测目的是对同一大气目标交替进行天底探测和临边探测。为实现天底/临边交替探测,研究了临边探测与天底观测模式的匹配方法及时间间隔ΔT 。根据载荷运控模式、卫星运行轨道和地球自转等,建立交替探测数学模型,研究天底/临边交替探测方法,采用Matlab 计算和卫星工具包(STK)仿真场景验证分析得出时间间隔分别为429 s和430 s。根据地球扁率和轨道衰减等误差分析,结合两种探测扫描设定,统一天底探测与临边探测目标区域,最终设定天底/
利用基于密度泛函理论的第一性原理,研究了硫(S)掺杂纤锌矿氧化锌(ZnO)的能带结构、态密度和光学性质。结果表明:掺杂后晶格畸变,晶格常数随着掺杂量的增加而增大;S 原子掺杂减小了能带间隙,提高了电子跃迁的概率;进一步的光学性质计算发现,S 掺杂后吸收谱出现红移,且吸收谱峰值随掺杂量的增加而增大,提高了可见光和紫外光区域的光吸收。
“激光武器”与其他新式武器现在可以不太受讥讽地谈论了。在新任美国空军参谋长麦康内耳(J. P.McConnell)公开发表谈话及最近空军与陆军有了一些活动后,对这些武器的猜测已有一定程度的权威。
在非旋波近似下,对二项式光场与Λ型三能级原子相互作用的量子特性进行了精确求解。讨论了二项式光场系数以及初始时刻原子能级的叠加对二阶相干度和光场压缩特性的影响。数值计算的结果表明,随着光场系数的增大,反聚束效应持续时间逐渐增大,初始时刻原子能级的叠加导致光场聚束效应持续时间增大。无论初始时刻原子能级是否叠加,随着光场系数的增大,光场压缩效应持续时间均先增大后减小。由于非旋波项产生的虚光子效应,二阶相干度和光场压缩效应演化曲线出现小锯齿状振荡。
本文报道了用308 nm XeCl激光消融聚合物及生物组织和角膜刻划的研究结果,并与1.06 μm和0.53 μm的纳秒、皮秒YAG激光消融生物组织的结果作了对比。