| 1. | Current progress on study of solar neutrino problem
太阳中微子问题研究进展 |
| 2. | Neutrino oscillation and solar neutrino problem
中微子振荡与太阳中微子问题 |
| 3. | This is the solar neutrino problem
这便是著名的太阳中微子难题。 |
| 4. | Detection of solar neutrinos
太阳中微子探测1 02 |
| 5. | In the detector should be able to capture 7 . 7 solar neutrino unit per chlorine atom per second
的实验装置应该可以每秒每一个氯原子捕获7 . 7个太阳中微子单位简称snu 。 |
| 6. | Several experimental results on solar neutrino missing and on atmospheric muon neutrino missing are described
介绍太阳中微子丢失实验的结果和大气中微子丢失实验结果。 |
| 7. | On average for every one million solar neutrinos that pass through the earth , only one will interact with the earth . the whole earth seems to be " transparent " to them
平均每一百万粒太阳中微子穿越地球,只有一粒有反应,整个地球竟像透明一样! |
| 8. | Neutrinos have been playing an important role in the rapidly developing field of physical science , but their significance to astronomy was recognized only since the 1960s . that was the famous solar neutrino problem
中微子在一日千里的物理学发展上占有重要的位置,而其在天文学领域上的贡献却肇始于60年代,亦即是著名的太阳中微子之谜。 |
| 9. | The hall - life measurement of long - lived radio isotopes , cross section measurement of nuclear reaction , searching for super heavy elements , cosmic study and solar neutrino detection are the main components which have been discussed
包括放射性核素半衰期的测定、核反应截面的测量、超重元素的寻找、宇宙射线和太阳中微子性质等方面的研究工作。 |
| 10. | Since 1950s , raymond davis jr , whose career as a chemist at the us department of energy s brookhaven national laboratory , has been thinking of capturing the solar neutrinos . after series of setbacks , he succeeded in developing the first experiment to detect the neutrinos in 1967 at an old mine 1 . 5 km underground in the homestake gold mine in south dakota . the experiments continued for over some 20 years since then
美国能源部布鲁克文国家实验室的化验师戴维斯在50年代已开始思考如何捕捉由太阳而来的中微子,在经历重重困难后,全球第一个测量太阳中微子的实验终于在1967年于美国south dakota homestake地底下1 . 5公里的旧矿洞展开,而且在以后20多年中几乎无间断地进行。 |
