新疆旅游业对经济增长影响的实证分析

近年来,旅游业已经成为很多地区拉动经济增长的重要产业之一。新疆具有浓郁的民族风情以及各种得天独厚的旅游资源,这为旅游业蓬勃发展提供了坚实基础。首先介绍了新疆旅游业的基本发展状况及趋势;其次,针对新疆2005-2017年的统计数据,运用Stata14.0软件对该数据进行多元回归,分析了旅游业对地区经济增长的贡献,并对新疆经济增长与旅游业之间的影响机制进行研究;最后根据实证分析得出的结论,提出了若干对策建议。     

智能场景建模信息系统

场景建模在计算机图形领域中是非常重要的部分。然而，场景建模是一个非常困难的任务，因为需要建模的场景变得越来越复杂，而且传统的几何建模工具并不能很好适应计算机辅助设计。尽管传统场景建模软件提供了非常有趣的工具来减轻设计者的工作，但是他们还得面对很大的困难，这些工具缺乏灵活性，设计师无法使用非完整或不精确的描述来表达他所想象的场景，所以，当前的几何建模软件在实现建模任务之前都要求用户必须对设计的场景有非常精确的概念，这种设计模式并不是真正的计算机辅助。     

关于太平洋安全的中欧对话：展望太平洋：看得到合作的希望吗？

太平洋地区正呈现出紧张局势，这不仅体现在关键的中美关系上，而且也体现在中国与其东部和南中国海周边国家的关系上。正如白宫、美国外交部和五角大楼在2012年初正式宣布且具体实施的那样，美国注意力、行动和军力分配向太平洋地区的“再平衡”战略转移，及此战略背后的真实意图，都引起北京方面的关注。中国担心，美国从大西洋到太平洋的整体“战略转移”，     

分析系统动力学 建模与仿真

本书是结合分析力学和系统动力学发展起来的一种新的多学科动力学系统建模方法。这种新的建模技术基于拉格朗日能量法，依次生成一系列适合数值积分的微分代数方程。本书适用的建模方法是能建模和仿真的六连杆闭链机构或晶体管功率放大器等系统。     

基于OBB层次结构碰撞检测的改进算法

方向包围盒（Oriented bounding box：OBB）的构造以及包围盒的相交测试的计算量都比较大，严重影响了在模拟、仿真的应用，尤其是有变形物体的场景。引入近似凸包的思想提出一种快速构造方向包围盒算法，很大程度上减少了构造方向包围盒（0BB）层次结构的顶点数，改进后的算法在降低构造层次结构时间的同时，对方向包围盒的紧密性代价几乎没有影响，在有些时候还提高了包围盒的紧密性。在包围盒相交测试方面，提留了一种基于筒单羽以爱的相交须刿方击，该算法在检测过程中省去了大量包围盒的相交测试计算，提高了相交测试的速度。最后将两种改进算法联合的碰撞检测框架与常用的基于均值和协方差矩阵的包围盒构造和基于分裂轴的算法进行比较，证明了算法具有高效性。     

A very faint core-collapse supernova in M85

An anomalous transient in the early Hubble-type (S0) galaxy Messier 85 (M85) in the Virgo cluster was discovered by Kulkarni et al. on 7 January 2006 that had very low luminosity (peak absolute R-band magnitude M(R) of about -12) that was constant over more than 80 days, red colour and narrow spectral lines, which seem inconsistent with those observed in any known class of transient events. Kulkarni et al. suggest an exotic stellar merger as the possible origin. An alternative explanation is that the transient in M85 was a type II-plateau supernova of extremely low luminosity, exploding in a lenticular galaxy with residual star-forming activity. This intriguing transient might be the faintest supernova that has ever been discovered.     

Novel neurotrophic factor CDNF protects and rescues midbrain dopamine neurons in vivo

In Parkinson's disease, brain dopamine neurons degenerate most prominently in the substantia nigra. Neurotrophic factors promote survival, differentiation and maintenance of neurons in developing and adult vertebrate nervous system. The most potent neurotrophic factor for dopamine neurons described so far is the glial-cell-line-derived neurotrophic factor (GDNF). Here we have identified a conserved dopamine neurotrophic factor (CDNF) as a trophic factor for dopamine neurons. CDNF, together with its previously described vertebrate and invertebrate homologue the mesencephalic-astrocyte-derived neurotrophic factor, is a secreted protein with eight conserved cysteine residues, predicting a unique protein fold and defining a new, evolutionarily conserved protein family. CDNF (Armetl1) is expressed in several tissues of mouse and human, including the mouse embryonic and postnatal brain. In vivo, CDNF prevented the 6-hydroxydopamine (6-OHDA)-induced degeneration of dopaminergic neurons in a rat experimental model of Parkinson's disease. A single injection of CDNF before 6-OHDA delivery into the striatum significantly reduced amphetamine-induced ipsilateral turning behaviour and almost completely rescued dopaminergic tyrosine-hydroxylase-positive cells in the substantia nigra. When administered four weeks after 6-OHDA, intrastriatal injection of CDNF was able to restore the dopaminergic function and prevent the degeneration of dopaminergic neurons in substantia nigra. Thus, CDNF was at least as efficient as GDNF in both experimental settings. Our results suggest that CDNF might be beneficial for the treatment of Parkinson's disease.     

Chiral magnetic order at surfaces driven by inversion asymmetry

Chirality is a fascinating phenomenon that can manifest itself in subtle ways, for example in biochemistry (in the observed single-handedness of biomolecules) and in particle physics (in the charge-parity violation of electroweak interactions). In condensed matter, magnetic materials can also display single-handed, or homochiral, spin structures. This may be caused by the Dzyaloshinskii-Moriya interaction, which arises from spin-orbit scattering of electrons in an inversion-asymmetric crystal field. This effect is typically irrelevant in bulk metals as their crystals are inversion symmetric. However, low-dimensional systems lack structural inversion symmetry, so that homochiral spin structures may occur. Here we report the observation of magnetic order of a specific chirality in a single atomic layer of manganese on a tungsten (110) substrate. Spin-polarized scanning tunnelling microscopy reveals that adjacent spins are not perfectly antiferromagnetic but slightly canted, resulting in a spin spiral structure with a period of about 12 nm. We show by quantitative theory that this chiral order is caused by the Dzyaloshinskii-Moriya interaction and leads to a left-rotating spin cycloid. Our findings confirm the significance of this interaction for magnets in reduced dimensions. Chirality in nanoscale magnets may play a crucial role in spintronic devices, where the spin rather than the charge of an electron is used for data transmission and manipulation. For instance, a spin-polarized current flowing through chiral magnetic structures will exert a spin-torque on the magnetic structure, causing a variety of excitations or manipulations of the magnetization and giving rise to microwave emission, magnetization switching, or magnetic motors.