非球对称星风中尘埃的形成

通过建立非球对称星风模型,研究了恒星尘埃的生成,发现在非球对称模型中,恒星更早地生成尘埃.对于较低的质量损失率,由非球对称模型给出的尘埃凝结度远远高于由球对称模型给出的尘埃凝结度.因而,非球对称模型可能给出更高的尘埃产量.对于较高的质量损失率,由于尘埃的凝结度已达到饱和,非球对称模型和球对称模型下,尘埃的凝结度基本一致,对尘埃的产量不会产生大的影响.     

中子星中简并电子气体的临界磁化

中子星内部的电子处于高度简并或完全简并的状态,电子磁矩(包括内禀磁矩和朗道反磁矩)的取向不是随机的,而是呈现出极强的磁化行为.考虑了磁化后的磁诱导方程要改写,改写后的方程添加了新的磁场生成项,更重要的改变是等效磁扩散系数变小了(顺磁情况),在临界情况(等效扩散系数等于零),磁场在磁生成项的作用下增加直到抑制机理出现,朗道反磁矩就是在这个时候变得越来越重要.磁场增加的最终结果使中子星局域磁场成为振荡的,对外看来有可能成为磁星. 关键词： 中子星 简并 磁化     

南疆列车倾覆事故的动力学因素分析

估算了列车所受最大风压和最大力矩, 分析了可能产生的结果; 得出了共振是列车倾覆的主要原因, 列举了可能的共振策动源.     

超大质量黑洞产生的高能中微子探测及巨型中微子射电探测阵列的选址

宇宙高能中微子很可能起源于超大质量黑洞与吸积物质的相互作用.这些中微子在传播过程中由于只参与弱相互作用,其轨迹直指起源的特性,使其成为观测宇宙更远的天体的全新窗口.传统的中微子探测方法由于造价高、技术复杂,限制了探测的有效面积和观测时间.巨型中微子射电探测阵列GRAND,由多国共同参与建设,具有造价低、易大面积部署、可全天观测的特点,成为目前最好的选择,通过探测高能中微子寻找超高能宇宙射线的起源.目前在进行GRANDProto300的选址中,我们在内蒙古明安图、新疆巴里坤等地方使用GRANDProto35原型天线进行实地探测.探测结果显示,巴里坤地区具有良好的电磁环境,更加适合该项目的建设.选址探测工作为GRANDProto300的选址及其它射电探测阵列的建设提供了依据.     

The lack of carbon stars in the Galactic bulge

In order to explain the lack of carbon stars in the Galactic bulge, we have made a detailed study of thermal pulse-asymptotic giant branch (TP-AGB) stars by using a population synthesis code. The effects of the oxygen overabundance and the mass loss rate on the ratio of the number of carbon stars to that of oxygen stars in the Galactic bulge are discussed. We find that the oxygen overabundance which is about twice as large as that in the solar neighbourhood (close to the present observations) is insufficient to explain the rareness of carbon stars in the bulge. We suggest that the large mass loss rate may serve as a controlling factor in the ratio of the number of carbon stars to that of oxygen stars.     

固态夸克星星震模型的研究

Glitch指脉冲星发生的自转角速度突然增大的现象,在许多脉冲星中都探测到了。Glitch的产生机制与脉冲星内部结构相关,而后者依然是待解决的难题。天文观测和理论研究均不能排除一类可能性,即脉冲星类天体本质上是固态夸克集团星,而固态星体发生Glitch的最自然的解释就是星震。本工作在星震模型下研究了固态脉冲星的Glitch现象。固态星体在自转减慢过程中,会发生应力能（或弹性能）的积累,当积累的应力超过星体能承受的限度,星体会发生碎裂,即发生星震,此时由于转动惯量突然减小而导致自转角速度突然增大,表现为Glitch现象。根据此模型可得到Glitch的幅度与时间间隔的关系。如果星体的质量较大而自转较慢,星震过程可能同时伴随体积的减小,即体积改变的星震,此时通常会有显著的引力能释放,可以解释观测到的反称X射线脉冲星/软伽马射线重复暴（AXPs/SGRs）;如果星体转速较快,星震过程可能只表现为形状即扁率的微小变化,此时不会有显著的能量释放。这两类Glitches可以解释观测现象。进一步的理论研究结合更多观测,有望使人们利用Glitch现象来检验固态夸克集团星这一理论猜想。The author demonstrates that how to understand the Glitches of solid pulsars in the starquake model. Glitch is the sudden spin-up during the normal spin-down process, which has been observed in many pulsars. The mechanism of Glitches is still a matter of debate because it depends on the unsolved problem that what is the nature of pulsars. One of the models of pulsars, the so-called solid quark-cluster stars, could not be ruled out by neither the astrophysics observations nor theoretical considerations. The Glitches of solid quarkcluster stars could naturally be the result of starqukes. During the spinning-down of the solid star, the strain energy develops until the stress reaches the critical value, then some parts of the star fragment, which would suddenly decrease the moment of inertia of the star, leading to the sudden increase of the rotation frequency that manifests as a Glitch. If the star has high mass or rotates slowly, the shrink of radius would happen during the starquake, leading to a huge amount of energy releasing which accounts for AXPs/SGRs. On the other hand, if the star rotates fast, only the oblateness of the star changes during the starquake, which would lead to negligible releasing of energy. This paper discusses the phenomenon of Glitches for solid quark-cluster stars, including the physical processes and consequences of starquakes, as well as the reasons for different energy releasing during Glitches. Further theoretical study combined with more observations about Glitches would be helpful for us to test the conjecture of sold quark-clusters.     

相对论简并电子气体的磁化

中子星内部的致密电子是高度简并的相对论气体, 其输运性质与中子星磁或热的观测现象密切相关, 被认为是中子星磁场的主要载体. 外磁场中电子的朗道能级是分立的且高度简并的, 与无外场时的能量差决定 了系统的磁化程度, 用量子统计的方法可计算理想相对论电子气体的磁化率. 结果表明弱场条件下的磁化率在数量级上接近白矮星的10^-3. 强磁场下的磁化呈现出类似在某些低温金属中出现的de Haas-van Alphen 震荡效应, 高次谐频的震荡幅度有可能超出临界磁化时的磁化率. 表明中子星内部有可能存在非稳定的磁化过程, 发生类似气液转化的一级相变过程, 出现两种磁化共存的稳定态或过冷磁化的亚稳态(若不同磁化态间存在表面能). 从亚稳态向稳定态的突然转化可能与磁星的辐射有关, 可以解释在磁星巨闪过程中观测到的额外辐射问题.