1·However, the increment of aperture or wind velocity can weaken thermal blooming oppositely.
而孔径和风速的增加会减小热晕效应。
2·Thermal blooming is one of the most important nonlinear effects on high energy laser propagation in the atmosphere.
热晕是高能激光大气传输的最重要非线性效应之一。
3·Then, describes some important scaling parameters, as well as the thermal blooming effect's threshold value is introduced.
然后对热晕效应的阈值以及描述该效应的一些重要的定标参量进行简要的介绍;
4·The result shows that the greater that of the power or distance for a certain other parameters, the stronger that of thermal blooming.
计算结果表明,在其它参数一致的情况下,发射功率越大,传输距离越远,热晕效应越强;
5·The research on thermal blooming can effectively facilitate the application of high-energy lasers in both military and civilian fields.
对热晕效应的研究能够有效促进强激光在军事和民用上的实际应用。
6·The influence of thermal blooming on IR image quality is relative severe when brightness or contrast of the IR detector observed scenery is very low.
红外探测器观察的景物亮度或对比度通常很低,此时热晕对红外像质的影响比较严重。
7·The influences of epaxial light intensity and energy distribution in far field caused by steady-state thermal blooming with wind are calculated and analysed.
采用数值模拟的方法,研究了强激光在大气传输过程中产生的稳态热晕效应。
8·Then, the applicable condition of integral algorithm, the interaction of thermal blooming in existence of turbulence, and the ways to suppress thermal blooming were introduced respectively.
随后分析了积分算法的适用性,介绍了热晕和湍流的相互作用问题。
9·Then the paper researches into atmospheric absorption which influences on atmosphere laser transmission, scattering, rapids, thermal blooming effect and the constructs atmospheric channel model.
论文研究了影响大气激光传输的大气吸收、散射、湍流和热晕效应,构建了大气信道模型。