Cosmic ray acceleration by supernova shocks

We analyse the results of recent measurements of nonthermal emission from individual supernova remnants (SNRs) and their correspondence to the nonlinear kinetic theory of cosmic ray (CR) acceleration in SNRs. It is shown that the theory fits these data in a satisfactory way and provides the strong evidences for the efficient CR production in SNRs accompanied by significant magnetic field amplification. Magnetic field amplification leads to considerable increase of CR maximum energy so that the spectrum of CRs accelerated in SNRs is consistent with the requirements for the formation of Galactic CR spectrum up to the energy ∼10¹⁷ eV.     

New evidence for strong non-thermal effects in Tycho’s supernova remnant

For the case of Tycho’s supernova remnant (SNR), we present the relation between the blast wave and contact discontinuity radii calculated within the nonlinear kinetic theory of cosmic ray (CR) acceleration in SNRs. It is demonstrated that these radii are confirmed by recently published Chandra measurements which show that the observed contact discontinuity radius is very close to the shock radius. Therefore a consistent explanation of these observations can be given in terms of efficient CR acceleration which makes the medium more compressible.     

Stationary flow fields prediction of variable physical domain based on proper orthogonal decomposition and kriging surrogate model

In this paper a new flow field prediction method which is independent of the governing equations, is developed to predict stationary flow fields of variable physical domain. Predicted flow fields come from linear superposition of selected basis modes generated by proper orthogonal decomposition(POD). Instead of traditional projection methods, kriging surrogate model is used to calculate the superposition coefficients through building approximate function relationships between profile geometry parameters of physical domain and these coefficients. In this context,the problem which troubles the traditional POD-projection method due to viscosity and compressibility has been avoided in the whole process. Moreover, there are no constraints for the inner product form, so two forms of simple ones are applied to improving computational efficiency and cope with variable physical domain problem. An iterative algorithm is developed to determine how many basis modes ranking front should be used in the prediction. Testing results prove the feasibility of this new method for subsonic flow field, but also prove that it is not proper for transonic flow field because of the poor predicted shock waves.     

列车交会动态压力波实车测试系统的开发与应用

简述了列车交会动态压力波实车实验测试系统的组成和基本原理。系统以压阻式压力传感器、数据采集仪和微机为核心，应用超声、红外检测技术，实现了列车交会压力波、交会车辆侧壁间距及相对车速的同时测量，并成功应用于广深线实车实验中。文中还探讨了实车实验中存在的其它问题和解决方法     

Self-similar solutions to stellar winds with cosmic rays

A two-fluid model is used to study the time evolution of stellar winds including the dynamical effect of cosmic rays. Neglecting the diffusion of cosmic rays, we seek self-similar solutions to spherically symmetric winds with a termination shock. The velocity upstream of the shock is taken to be zero. Physical solutions are those that can connect the shock to the star with the velocity approaching zero at the star. Two parameters govern the behaviour of the solutions, namely, the ratio of the upstream sound speed to the shock speed (in an inertial frame) and the gravitation potential of the central star. In some parameter regimes, no physical solution is possible.     

应用傅里叶时间谱方法求解二维跨音速流动问题解的精度研究

为了从时间离散精度的角度评估傅里叶时间谱方法的实际计算效率,对用该方法求解二维跨音速流动问题的解进行了精度研究。通过求解Euler方程模拟俯仰振动NACA0012翼型的周期性非定常流动。结果表明:傅里叶时间谱方法可以使用很大的时间间隔较为准确地模拟有激波存在的周期性跨音速流动;对于此类流动问题,相比二阶向后差分公式法,傅里叶时间谱方法在预测翼型表面压力系数积分量特别是升力系数的时间变化规律方面具有明显的计算效率优势;用于模拟翼型表面压力系数自身的时间变化规律时,傅里叶时间谱方法具有不低于二阶向后差分公式法的计算效率。     

200km/h动力分散型电动旅客列车组车体表面压力分布试验研究

阐述了对我国首列200km/h动力分散型电动旅客列车组(先锋号列车)车体表面压力分布测试情况,对测量结果进行了较为详细的分析,最后用流场计算软件CFX对先锋号列车周围流场进行了数值模拟计算,并将计算结果与测量结果进行了对比,两者有较好的一致性。该研究结果可为空调装置及电器设备冷却风道进排风口位置的选取提供科学依据。     

一种冲击响应谱试验设备校准装置的研制

介绍了冲击响应谱基本概念及其试验设备的分类与工作原理，参考现行冲击试验台检定规程提出了针对该设备的校准方法，设计了一种基于虚拟仪器技术的新型冲击响应谱试验设备校准装置，给出了典型冲击波形（半正弦、矩形、后峰锯齿）的冲击响应谱仿真计算结果并进行了验证，计算结果与理论结果完全一致，证明算法准确可靠，能够实现对冲击响应谱试验设备的校准。     

边界层抽吸对超燃冲压发动机流场特性的影响研究

为了解边界层抽吸对超燃冲压发动机流场的影响,采用风洞试验和数值计算对隔离段激波串特性以及燃烧室燃烧特性进行了研究。结果表明,在发动机入口马赫数2.0,总温950K,总压0.82MPa的来流条件下,当量比为0.18先锋氢气与不同当量比煤油共同燃烧呈不稳定状态,激波串在隔离段内前后振荡传播。当煤油当量比为0.29时,激波串振荡前缘远离抽吸位置,边界层抽吸对发动机流场基本没有影响。随着煤油当量比逐渐增大,激波串前缘位置到达抽吸区附近,边界层抽吸开始产生影响,改变了隔离段内的激波串动态演化过程、形态结构以及位置分布,同时有效提高了隔离段抗反压特性,使得煤油最大当量比可以由0.38增大至0.42。此外,边界层抽吸对发动机内的亚燃/超燃区域分布也会产生影响。     

How do interplanetary shock impact angles control the size of the geoeffective magnetosphere?

In this paper, we investigate temporal and spatial magnetosphere response to the impact of interplanetary (IP) shocks with different inclinations and speeds on the Earth’s magnetosphere. A data set with more than 500 IP shocks is used to identify positive sudden impulse (SI⁺) events as expressed by the SuperMAG partial ring current index. The SI⁺ rise time (RT), defined as the time interval between compression onset and maximum SI⁺ signature, is obtained for each event. We use RT and a model suggested by Takeuchi et al. (2002) to calculate the geoeffective magnetospheric distance (GMD) in the shock propagation direction as a function of shock impact angle and speed for each event. GMD is a generalization of the geoeffective magnetosphere length (GML) suggested by Takeuchi et al. (2002), defined from the subsolar point along the X line toward the tail. We estimate statistical GMD and GML values which are then reported for the first time. We also show that, similarly to well-known results for RT, the highest correlation coefficient for the GMD and impact angle is found for shocks with high speeds and small impact angles, and the faster and more frontal the shock, the smaller the GMD. This result indicates that the magnetospheric response depends heavily on shock impact angle. With these results, we argue that the prediction and forecasting of space weather events, such as those caused by coronal mass ejections, will not be accurately accomplished if the disturbances’ angles of impact are not considered as an important parameter within model and observation scheme capabilities.