Physical processes of the propagation of the solar cosmic rays in the interplanetary space include the diffusion in interplanetary disordered magnetic fields and the convection in solar winds.
太阳宇宙线在行星际空间的传播,包括行星际不规则磁场中的扩散和太阳风对流这两种物理过程。
Computer calculations have been made on the dimensional solution to the anisotropic diffusion convection equation for solar cosmic rays propagating in an uniform and unbounded interplanetary medium.
应用电子计算机计算了太阳宇宙线在均匀并无限的行星际介质中传播的各向异性扩散对流方程的量纲分析解。
That was four years ago; and since then, further research published in peer-reviewed journals has, if anything, weakened the solar case - whether involving cosmic rays or not.
这还只是四年前的普遍认识。 最近,一些经同行审阅发表的文章进一步弱化了太阳活动的影响——宇宙射线甚至被排除在考虑因素之外。
The heliosphere shields the solar system from 90 percent of energetic cosmic rays — high-speed charged particles that would otherwise bombard the planets and harm life.
日球层就像一个盾牌,挡住了90%高能宇宙射线。 宇宙射线由高速带电粒子组成,会轰击星球并伤害生物。
Their prediction is based on levels of rare isotopes that accumulate in the Earth's crust when weak solar winds allow cosmic rays to penetrate the Earth's atmosphere.
他们的预测是基于积聚在地壳的罕见同位素的水平,轻微的太阳风使宇宙射线穿透地球的大气层。
The space particle environment is composed of galactic cosmic rays, solar flares and geomagnetically-trapped particles.
空间高能粒子环境由银河宇宙射线、太阳宇宙射线及地磁捕获粒子组成。
The mechanism involves cosmic rays aiding cloud formation, and the solar wind deflects cosmic rays away from Earth during periods of high solar activity.
机制与帮助云层的宇宙射线有关,并且太阳风偏斜宇宙射线离开在高的太阳能活动的时期的地球。
Their prediction is based on the level of a rare isotope accumulated in the lithosphere as the solar wind greatly facilitating cosmic rays to break through the earth's atmosphere.
他们的预测是根据太阳风促使宇宙射线穿过地球大气层,在地壳里堆积的一种罕见的同位素的水平做出的。
Cosmic rays emanate from beyond our solar system and are constantly bombarding our planet.
宇宙射线不断地从我们的太阳系之外撞击到地球。
Their prediction is based on levels of rare isotopes that accumulate in the Earth"s crust when weak solar winds allow cosmic rays to penetrate the Earth"s atmosphere.
他们的预测是基于积聚在地壳的罕见同位素的水平,轻微的太阳风使宇宙射线穿透地球的大气层。
Their prediction is based on levels of rare isotopes that accumulate in the Earth"s crust when weak solar winds allow cosmic rays to penetrate the Earth"s atmosphere.
他们的预测是基于积聚在地壳的罕见同位素的水平,轻微的太阳风使宇宙射线穿透地球的大气层。
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