| 1. | In successive steps, a high-energy electron creates a shower .
在级联的情况下,高能电子可以引起簇射。 |
| 2. | When the protons strike the air, nuclear collisions occur, giving rise to a shower of various particles .
当质子撞击空气时,发生原子核碰撞,产生各种各样的粒子的簇射。 |
| 3. | Try to detect extensive air shower ( eas )
尝试探测空气簇射。 |
| 4. | The properties of the eas are hidden as the peak is sharp around zero
由于两组探测器相隔太近,空气簇射引发的峰值只出现于零附近,不利于分析宇宙射线的特性。 |
| 5. | The number of cascade particles changes according to the incident cosmic ray energy , observation height , etc
到达地面的簇射粒子数目会随不同因素而改变,包括原初宇宙射线的能量、观测高度等。 |
| 6. | These showers could reach any microbes inside the rock unless it was very big , about two meters or more in diameter
岩石内部任何微生物的藏身之处,都避不开这些簇射,除非是直径约两公尺或更大的石块。 |
| 7. | The reason is that charged particles and high - energy photons interact with the rocky shielding material , producing showers of secondary radiation within the meteorite
原因在于带电粒子与高能光子会与岩石遮蔽物质交互作用,在陨石内部引发二次辐射的簇射。 |
| 8. | Photon identification in the momentum range from 0 . 5 to 100 gev by using pca method is presented and compared with the results attained by traditional shower topology method
与传统的簇射拓扑分析相比,在同等的效率下,理a区分电磁簇射和强子簇封的能力将提高10肠 |
| 9. | On the other hand particle identification is provided during offline analysis by algorithms that examine the electromagnetic shower shape in phos to discriminate electromagnetic particles against hadrons
之二,对phos中的簇射进行拓扑分析,从而区分电磁簇射和强子簇射。 |
| 10. | In high energy neutrino - emulsion collisions , the normalized distribution of two - particle relative pseudorapidity and the correlation between the mean maximum number density of shower particles and multiplicity are investigated
摘要论述了高能中微子与核乳胶碰撞中,归一化的两粒子相对鹰快度分布,和平均最大簇射粒子数密度与多重数的关联。 |
