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1.
利用中微子勘察地球深部铀矿的设想 总被引:1,自引:0,他引:1
1930年,存在中微子的预言引起了科学家们的注意。由于中微子和物质的相互作用微弱,对证明它的存在带来了很多困难。直到1956年才被莱因斯(Reines)和考思(Cowen)通过观察中微子与~1H核反应,即 v ~1H→n e~( [1]) “直接”证明了从核反应堆里由中子衰变所产生的强的反中微子。发现了中微子之后,进一步试验使人们对其性质加深了了解,如: 相似文献
2.
《吉林大学学报(地球科学版)》2015,(Z1)
<正>自上世纪80年代以来,加速器质谱分析技术的发展推动了宇宙成因核素在地表过程研究中的应用。近几年有关宇宙成因核素的文献和引用频次呈爆发式增长[1]。国内相关研究多集中在河流沉积物、阶地演化、冰川历史、埋藏年龄等,对地表剥蚀速率的报道较少。宇宙成因核素是指来自外层宇宙空间的高能量宇宙射线粒子(包括原生和次生粒子、中子和微介子等)与地表/近地表岩石中元素间发生核反应而形成的稳定核素(3He、21Ne等)和放射性核素(10Be、14C、26Al、36Cl等)。宇宙成因核素生成率随深度呈指数衰 相似文献
3.
~(10)Be、~(36)Cl是宇宙射线与大气成份进行散裂核反应的产物。它们在大气圈停留1—2年,然后通过降水沉降至地表。~(10)Be半衰期1.5×10~6a,~(36)Cl半衰期0.301×10~6a,均属纯β放射体,在自然界含量极低,传统的衰变测量法已难以适应现代地球科学中高分辨研究的需要,七十年代末八十年代初兴起的加速器质谱技术使这两核素的测量灵敏度提高了五个数 相似文献
4.
宇宙成因核素测年方法及其在地球科学中的应用 总被引:3,自引:3,他引:0
宇宙成因核素地表暴露测年方法,是近年来迅速发展起来的一种新的同位素地质年代学方法.宇宙成因核素主要是由来源于银河系的宇宙射线与暴露于地表的物质作用形成的,作用机制主要包括裂变、中子捕获和介子反应.产生宇宙成因核素宇宙射线粒子主要是次生快中子、热中子和负慢介子,由于这些宇宙射线粒子在空间分布上的不同,地球上不同纬度、海拔高度和深度处的宇宙成因核素生成速率也表现出较大的差异.地表物质中宇宙成因核素浓度除了受到核素生成速率和地表物质的暴露时间制约外,还与地表侵蚀速率密切相关,此外,地磁场强度、遮蔽、化学风化及样品的几何位置等也会对核素浓度产生一定影响,在求算样品的地表暴露年代时,应对这些因素进行相应的校正.宇宙成因核素地表暴露测年技术的理论和方法日臻完善,目前它已被广泛到第四纪冰川、撞击坑、火山地貌、断层面等地学问题中来. 相似文献
5.
应用天然^32Si测定地下水年龄的新方法——切伦科夫计数法 总被引:2,自引:0,他引:2
^32Si是放射性同位素,它衰变时发射低量(≈0.1MeV)的β--射线(电子)并生成子体^32P。^32P是一个常用的放射性同位素,衰变时发射高能量(1.7MeV)的β--射线,半衰期为14.3d,容易测量,因此使^32Si的放射性测量变得较为方便。^32Si和^32P在2-3个月内可达到放射性平衡。^32P的放射性通常用切伦科夫计数法测量。应用^32Si作为示踪剂测定地下水年龄范围为50-1000a,大约需要200mg Si。用Fe(OH)3共沉淀法从天然水中提取SiO2回收率可达60%-95%,然后提取^32P。将H3PO4溶液和TritonX-100混合制备计数溶液,用液体闪烁计数法测量^32P的方向性,最后用公式计算^32Si的放射性浓度。 相似文献
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7.
宇宙成因核素在地球科学中的应用 总被引:11,自引:0,他引:11
随着加速器质谱的出现 ,宇宙成因核素展示了其在地球科学中的生命力。文中介绍了宇宙成因核素的生成、示踪原理及近些年来在地球科学中的应用 ,特别着重地介绍了原地生成宇宙成因核素定年这一新的技术。宇宙成因核素是宇宙射线粒子 (包括原生和次生粒子 )与大气及岩石发生核反应所生成的新的核素 ,其在大气及岩石中的生成量可用已知物理过程定量地描述。大气生成宇宙成因核素在考古、古环境及地球各圈层的相互作用方面得到了广泛的应用 ,原地生成宇宙成因核素则在地貌学研究中扮演着重要的角色 ,成为一门新的实验技术。这门技术可以定量地描述地表的暴露历史和侵蚀速率 ,在解决许多地质问题上成为惟一的手段 相似文献
8.
太阳变化驱动气候变化研究进展 总被引:19,自引:4,他引:19
从5个方面综述了近20年来太阳变化驱动气候变化研究的进展,重点在机制方面,即对全球变暖原因看法的分歧、太阳总辐射量的卫星测量结果、树轮14C记录与太阳变化代用指标、太阳变化影响的模拟研究,以及太阳—宇宙射线—云量的关系。强调这是一个有重大经济和科学意义的前沿课题。 相似文献
9.
放射性同位素14C测年技术广泛应用于第四纪地质学、考古学、海洋学和古气候等学科。常规14C测年,是采用β衰变低本底液体闪烁计数仪记录一定时间间隔内一定量样品中14C原子衰变数目的方法,由于仪器操作简单、方便,在不受样品量限制的情况下,测试的精度能够满足测年的要求。14C测年液闪法样品制样前处理系统主要在真空玻璃系统中完成,但真空玻璃系统容易出现破碎、断裂,每个实验室需要配备专门的玻璃焊接师傅维护和维修真空玻璃系统,制约着14C测年技术的发展。文章探讨了常规14C制样系统的升级改造,建立了一套金属系统、不用玻璃焊接,无油污染、安装方便、拆卸灵活的常规14C测年样品制备系统,该套系统解决了常规14C发展中遇到的难点问题,使得常规14C测年技术得到更好的推广和应用。 相似文献
10.
大亚湾中微子地下实验室场地的工程地质条件评价 总被引:1,自引:0,他引:1
中微子实验目的是测定中微子混合角13,这是当前国际粒子物理、核物理、天体物理和宇宙学中一个急待解决的关键问题。目前研究中微子振荡一个国际前沿是利用反应堆中微子实验测量中微子混合角13。其地下实验室对场地工程地质条件和环境要求极高。大亚湾核电站的功率高,反应堆紧邻位于排牙山南麓实验预选场址;浑厚的花岗岩山体地下空间可屏蔽宇宙线本底,能提高混合角13量测精度。本文通过地形测绘、工程地质调查、综合地球物理勘探、钻探、孔内测试(地应力、钻孔电视和声波)和室内实验,系统分析研究了场址区工程地质条件,得出场区地层岩性和构造断裂不发育,燕山期花岗岩体完整,强度高,地应力不高,地下水主要赋存于裂隙中,岩体渗透系数很小的结论。拟选4个实验厅位置的岩体均属Ⅰ~Ⅱ类围岩,连接隧道的围岩81%属Ⅰ~Ⅲ类。工程地质条件评价结果说明,大亚湾中微子地下实验室可望成为世界上投资少精度最高的测量13理想场址。 相似文献
11.
Long term characteristics of solar and galactic cosmic rays, as revealed by the study of their nuclear effects in lunar, meteoritic and terrestrial samples are summarised. The data so far available on radioisotopes, noble gases and tracks, though limited, are consistent with nearly constant fluxes and composition during different epochs over billions of years; one exception is14C activity in the earths atmosphere over the past few hundred years, suggesting a variation in the solar activity. Other small or brief variations, which cannot be ruled out as yet, require better estimation of depth and size dependence of nuclear effects in rocks before they can be attributed to cosmic rays. 相似文献
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释光测年中环境剂量率影响因素研究 总被引:1,自引:1,他引:0
释光测年中影响环境剂量率(D)的主要因素包括含水量、宇宙射线、a值(α辐射相对于γ辐射产生释光的效率)和氡逃逸等。为研究这些影响因素对D值的影响程度,采用不同的参数值对一个假定U、Th和K含量已知的样品进行了较详细的定量计算。研究结果表明,含水量变化对环境剂量率影响最大,影响程度甚至可达50%以上;其次为宇宙射线的影响,最大可达近15%;氡逃逸的影响最多不超过8%;而a值通常取固定值,产生的影响则相对小的多。 相似文献
14.
Galactic cosmic rays and solar protons ionize the present terrestrial atmosphere,and the air showers are simulated by well-tested Monte-Carlo simulations,such as PHITS code.We use the latest version of PHITS to evaluate the possible ionization of protoplanetary disks by galactic cosmic rays(GCRs),solar protons,and by supernova remnants.The attenuation length of GCR ionization is updated as 118 g cm~(-2),which is approximately 20% larger than the popular value.Hard and soft possible spectra of solar protons give comparable and 20% smaller attenuation lengths compared with those from standard GCR spectra,respectively,while the attenuation length is approximately 10% larger for supernova remnants.Further,all of the attenuation lengths become 10% larger in the compound gas of cosmic abundance,e.g.128 g cm~(-2) for GCRs,which can affect the minimum estimate of the size of dead zones in protoplanetary disks when the incident flux is unusually high. 相似文献
15.
长期暴露于地表的石英砂被快速搬入洞穴或埋藏,不再接受宇宙射线辐射,埋藏前所积累的陆地宇生核素26 Al 和10 Be 随时间指数衰减。据此用加速器质谱计测定沉积物中石英样品现存的26 Al /10 Be可计算其埋藏年代。用此方法本文对周口店第一地点的下部地层年代作了初探。此次研究表明自第10层以下的沉积物其年代很可能≥ 1 Ma。 相似文献
16.
月壤颗粒微观环带的太空风化成因 总被引:2,自引:0,他引:2
太空风化是迄今31亿年以来影响月球表面物质演化过程的主要因素,主要包括陨石、微陨石的轰击,太阳风粒子的注入,太阳/银河宇宙射线的辐射以及周期性的加热作用等。通过深入剖析太阳风粒子的注入与溅射、微陨石轰击的蒸发与沉积、宇宙射线辐射的辐射损伤等过程的作用机理,探讨了不同太空风化过程对矿物颗粒环带厚度、化学组成、晶体结构等特征的影响,认为微陨石轰击与太阳风注入是形成月壤颗粒微观环带的主导因素,宇宙射线辐射与周期性加热的影响可忽略不计。进一步结合非晶质环带、富内含物环带、多环环带以及小泡环带等月壤颗粒主要环带的基本特征,在总结和对比分析各类型环带的厚度、结构以及化学组成特征基础上,对不同类型环带的成因进行初步推断,认为非晶质环带、小泡环带以及多环环带的内层环带具有太阳风作用特征,而富内含物环带、多环环带的外层环带则具有微陨石轰击的成因特征。根据目前单纯依靠环带的化学组成分析解释环带成因存在的不足,指出了通过补充分析矿物晶体结构在模拟太空风化实验过程中的变化特征来研究环带成因的新思路。 相似文献
17.
An analysis of the dynamics of the electron temperature of the solar atmosphere in regions where solar flares appear is presented. The temperatures are estimated from the emission in spectral lines of ions with various degrees of ionization. The emission of ionized helium and highly ionized iron was used. Images of preflare states and of flares from the archive of the American SDO spacecraft are analyzed. A solar flare is usually preceded by the registration of a bright glowing structure above the action region, with a temperature exceeding that of the corona. This preflare structure (~1010 cm) is identified with the development of a system of currents, which, according to numerical simulations, is responsible for the accumulation of energy above the active region before the flare. After several tens of hours of a slow increase in the brightness of the preflare glow in the 94 Å iron (FeXVIII) line, the emission in the 193 Å line of FeXXIV increases sharply, indicating a flare-like growth of the temperature up to at least 20 MK. This growth of the emission coincides with the onset of the solar flare. The observed dynamics of the emission in spectral lines of highly ionized ions is consistent with an electrodynamic model of a solar flare based on the accumulation of magnetic energy in a current sheet above the active region and the explosive release of the stored energy. Studies of mechanisms for solar flares are of special importance in connection with the discovery of solar cosmic rays. Information from the worldwide network of neutron monitors and from the GOES spacecraft has made it possible to firmly state that the source of solar rays is solar flares, not shocks generated by such flares. It cannot be ruled out that a similar mechanism, not shocks, is also responsible for the acceleration of cosmic rays in the Galaxy. 相似文献
18.
The influence of various types of nonthermal electron and proton distributions and photoionization on the charge state of energetic heavy elements moving in a plasma is investigated. The mean charges of Mg, Si, and Fe are calculated for a bi-Maxwellian distribution of the background electrons and for electron and neutral beams with power-law energy distributions. An anomalously high density of the nonthermal component is required to obtain substantial deviations of the equilibrium mean charges of these elements (a few charge units) from the case when they interact with a purely Maxwellian plasma. In this context, the mean charges for O, Ne, Mg, Si, and Fe ions are also calculated for a model with charge-consistent acceleration. The results indicate that photoionization does not significantly influence the charge state of solar cosmic rays if the parameters of the plasma are those characteristic of impulsive solar events. 相似文献
19.
Xiao Ziniu Zhong Qi Yin Zhiqiang Zhou Limin Song Yan Han Yanben Huang Cong Pan Jing Zhao Liang 《地球科学进展》2013,28(12):1335-1348
Role of solar activity on modern climate change, particularly in the decadal scale is an important scientific issue. This paper reviews the recent observation of decadal solar signal in earth’s climate, with focus on the mechanism of solar radiation, ultraviolet radiation and cosmic rays on climate system ,and its validation. The paper points out that the assessment of uncertainty in observations, amplification process of the climate system, as well as possible future impact of solar extreme events are challenges in the present study. Finally, the keys of breakthrough are pointed, to provide a reference for future research. 相似文献
20.
《Physics and Chemistry of the Earth, Part A: Solid Earth and Geodesy》1999,24(8):705-710
The physical parameters of a system are dependent on external conditions: temperature, pressure, EM-radiation etc. If all the known conditions are stable we can expect the parameters to be stable also. Nevertheless variations occur. These variations correlate for measurements in widely dispersed locations and they also correlate with solar activity and apparently with cosmic and terrestrial events. This means that the variations are not truly spontaneous, but rather quasi-spontaneous, since they are induced by some external influence of unknown nature. Could that influence be: I. Some difficult to observe particles, such as neutrinos, mu-mesons,etc.? 2.Hypothetical variations of space-time curvature, or torsion? 3.Stream of negentropy? N.A.Kozyrev (1908–1983) provided evidence that as the entropy in a system increases and the organization decreases, the latter does not disappear, but irradiates and is carried away as a stream of negentropy (or information), to be transferred to some other system(s), giving rise to an organization growth that changes the parameters of objects in that system(s). A survey of experimental data about quasi-spontaneous variations is presented. 相似文献