In the first chapters, the concepts of black hole and the event horizon, black hole radiation, the thermal properties of black hole, and scalar field radiation are introduced briefly.
在论文的第一章,简单地介绍了黑洞的形成、视界的概念、黑洞的热性质以及黑洞辐射和标量场辐射等基础知识。
We also study the photon statistic properties of thermal radiation field in the process.
着重分析了热态光场在此作用过程中所展现出的光子统计特性。
The model is employed to determine the radiative flux properties and the intensity distribution of cirrus for both solar and thermal infrared radiation.
文中用这种模式计算了太阳短波以及地球红外热辐射通过卷云时的辐射通量传输性质以及方位平均强度的分布。
First, the special thermal environment of the thin atmosphere is analyzed, and two prototype super pressure balloons with different film radiation properties are designed.
首先分析了火星大气的特殊热环境。归纳了影响火星气球温度特性的主要环境因素,并设计了两种不同蒙皮辐射特性的原型超压气球。
Because the free water jade crystal structure, thermal capacity and radiation heat faster physical properties.
由于玉石的自由水结晶构造,具有热容量大和辐射散热快的物理特性。
The effects of neutron radiation on the mechanical and thermal properties of the thermal-insulation materials and their transmutation are studied in this paper.
本文综述了中子对绝热材料的力学性能、热学性能的影响,以及其在中子照射下的嬗变。
It can be find that average photon number of thermal radiation field and multi-photon transition process have intense influence on the non-classical properties.
可以看出热态光场的平均光子数和多光子跃迁对光场非经典性质有强烈的影响。
This paper investigates physical and rheological properties before and after ultraviolet aging, compared the influence for asphalt performance of ultraviolet radiation aging with thermal aging.
本文研究了沥青紫外老化前后的物理性能与流变性能,并与热老化前后的物理性能与流变性能进行了对比。
The influences of reaction mechanisms, radiation models, dispersion effects, and variations of physical, thermal and transport properties on numerical results are discussed in detail.
通过数值计算研究超绝热燃烧的形成、以及弥散效应、当量比和多孔介质材料本身对超绝热燃烧特性的影响。
The influences of reaction mechanisms, radiation models, dispersion effects, and variations of physical, thermal and transport properties on numerical results are discussed in detail.
通过数值计算研究超绝热燃烧的形成、以及弥散效应、当量比和多孔介质材料本身对超绝热燃烧特性的影响。
应用推荐