| 1. | This field traps high-energy protons and electrons from the sun . 这个场捕获来自太阳的高能质子和电子。 |
| 2. | Approaches to study single event effects induced by high energy protons in devices 高能质子引起器件单粒子效应的研究方法 |
| 3. | Fitting the spectrum with maxweuian distribution , the effective temperature of about 200kev 高能质子能谱测量给出高能质子最大能量约zookev 。 |
| 4. | The incident high - energy protons interact with the silicon material in the way that is approximate to the three unrelated mechanisms : nuclear scattering , electronic process and nuclear reaction 高能质子与硅材料的相互作用近似为核散射、电子阻止和核反应三个相互独立的过程。 |
| 5. | Proton - proton elastic scattering at high energies is an important issue in understanding of qcd - the fundamental theory of strong interaction and in searching for new physics 高能质子?质子弹性散射对于理解强相互作用的基本理论? ? qcd理论和寻找新的物理都是一个很重要的课题。 |
| 6. | The microscopic mechanisms of interaction of high - energy proton with material are studied in detail , including nuclear scattering , nuclear reaction and electronic stopping of protons 从微观机制出发,系统地对质子辐射与材料的相互作用基本物理过程进行了描述,入射质子与靶材料的作用主要为核散射和电子作用,在高能质子入射的情况下还有核反应的发生。 |
| 7. | One involves the radiation hardening technique of electronic devices aboard on spacecraft for extremely high energy protons with low flux existed in the environment of space ; the other is related to the thermal - mechanical effects of materials under the exposure of high - energy intense - current proton beams 本文主要研究了空间飞行器抗辐射加固研究中涉及的高能质子辐射效应问题和强流质子束辐照引起的热?力学效应问题。 |
| 8. | During the interaction of ultra - short and ultra - intense laser with plasma , application of energetic protons generated by this interaction are proton imaging , compact particle accelerators , diagnosis the interaction of ultra - short and ultra - intense pulse laser with plasma , " fast ignitor " and proton cancer therapy etc 摘要超短超强激光与等离子体相互作用中得到的高能质子在质子成像、粒子加速、诊断超短超强激光与等离子体相互作用的物理过程、 “快点火”和治疗癌症等方面有一定的应用。 |
| 9. | The research on the radiation effects of materials induced by high - energy proton irradiation is of important significance in many scientific fields , such as the single event effects of semiconductor components exposed on space , accelerator - driven nuclear energy generator , tritium production by accelerator , intense pulsed ion beam technology , proton radiography , etc . the effects and mechanisms of irradiation vary vastly for different energies and intensities of proton beams 宇宙高能质子的单粒子效应( see )研究、洁静核能系统( ads )研究、加速器产氚计划( apt ) 、强脉冲离子束( ipib )技术、质子断层扫描等领域都涉及质子辐射效应问题。质子辐射对不同的材料会导致不同的效应,开展质子辐射效应产生的机制研究,掌握其效应规律,对于电子学元器件的抗辐射加固指标提出,以及在其他研究中的方案设计等都有重要意义。 |
| 10. | Nuclear scattering results in the displacement defects in material as well as the deflection of proton from its incident direction ; electronic stopping of protons acts as the most important factor in the degradation of incident proton energy , resulting in electronic effects such as single event upset 核散射是导致入射质子运动方向改变以及缺陷产生的主要因素,入射质子与核外电子云的作用是高能质子在材料中慢化的主要因素。核反应在宇宙高能质子引起的单粒子效应中有重要影响。 |