1. Strange meson production in heavy ion collisions has been studied.
我们研究了重离子碰撞中的奇异介子产生。
来自互联网
2. The perspective of heavy ion collisions at intermediate energy was introduced briefly.
最后对当前中能重离子核物理的发展前景作了介绍。
来自互联网
3. It is an efficacious method to simulate the SEU with HeavyIon produced by Accelerator.
依靠加速器产生的重粒子进行单粒子翻转的模拟实验,是一种有效的验证方法。
来自互联网
4. Another amazing feat of physics came out of Brookhaven's Relativistic Heavy Ion Collider this year.
一个惊人的物理学壮举来自今年的布鲁克海文实验室的相对重离子对撞机。
来自互联网
5. Because heavy ion has the characters of high-LET value and sharp Bragg peak for dose distribution.
因为重离子具有高传能线密度(LET)及剂量分布呈尖布喇格峰的特点。
来自互联网
6. The revelation of heavy ion tracks in olivine after partial annealing has been studied by the TINT technique.
利用径迹相交法研究了经部分退火后橄榄石中重离子径迹的显示问题。
来自互联网
7. At the early stages of relativistic heavy ion collisions, a hot and dense, strongly interacting medium is created.
在相对论重离子碰撞的早期,产生出了一种高温高密的强相互作用的新物质形态。
来自互联网
8. The antimatter particle was created at the Relativistic Heavy ion Collider at Brookhaven National Laboratory in Upton, n.y..
纽约州阿普顿布鲁克海文国家实验室的相对重离子对撞机所创建的反物质粒子。
来自互联网
9. The heavy ion accelerator is not only a powerful tool for nuclear physics, but opens many new application fields of heavy ions.
重离子加速器作为核物理研究工具的同时,也开辟了广阔的新的应用领域。
来自互联网
10. In heavy ion reactions, the intermediate structure phenomena show the properties of the rotation-vibration spectra of molecules.
重离子反应中的中间结构显示出分子振转谱的特性。
来自互联网
11. The isospin effect and K production in intermediate and high energy Heavy Ion Collisions (HICs) are hot topics in the nuclear physics.
重离子碰撞中的同位旋和近阈K产生均为当今核反应研究的前沿内容和热点问题。
来自互联网
12. The top plot depicts the low-energy plasma of solar wind origin, and the bottom plot shows heavy ion intensities associated with the planet.
顶部情节描写低能离子的太阳风的原产地,以及底部图谋表明重离子强度与星球。
来自互联网
13. The isospin fractionation in intermediate energy heavy ion collisions is studied by using isospin dependence quantum molecular dynamics model.
利用同位旋相关的量子分子动力学模型研究了中能重离子碰撞中同位旋分馏过程。
来自互联网
14. In cooling storage ring heavy ion beam is plasma of high density. when a big power laser interacted on it, it will get ultra-high temperature.
重离子冷却存储环中的束流是高密度的等离子体,这样的束流照射物体将得到超高压强。
来自互联网
15. Applications include the electron cooling of ion beams in storage rings and the final deceleration of antiprotons and heavyion beams in traps.
应用包括在存储环和反质子和在陷阱的沉重的离子束的最后的减速里的电子离子束的冷却。
来自互联网
16. Inside the Relativistic Heavy Ion Collider (RHIC) at Brookhaven National Laboratory where scienstist created the highest temperature in the universe
布鲁克海文国家实验室的大型重子对撞机内---科学家制造宇宙最高温度的地方
来自互联网
17. A shielding design with multilayer combination has been introduced for on-line measurement of nuclear physics experiment with heavy ion accelerator.
本文主要介绍了重离子加速器核物理实验在线测量中为降低辐射本底而采用的多层组合屏蔽设计。
来自互联网
18. The major goal of high energy heavy ion collision is to investigate nuclear matter properties under extreme conditions and detect quark-gluon plasma (QGP).
高能重离子碰撞物理学主要目的是研究极端条件下核物质的性质,探测夸克—胶子等离子体(QGP)。
来自互联网
19. The history of heavy ion therapy is retrospected briefly and more interests are concentrated on the progress of cancer therapy with heavy ions in this paper.
本文简略地回顾了重离子治疗的历史,更多的兴趣集中在重离子治癌的进展上。
来自互联网
20. The space particle composition detector aboard FY-1C satellite can simultaneously detect proton spectrum, electron integrated flux and heavy ion composition.
FY 1C星空间粒子成分探测器能够实现对质子能谱、电子积分通量及重离子成分的同时测量。
来自互联网
21. One of main objects of ultra-relativistic heavy ion collisions experiments at RHIC and LHC is to discover this kind of new state of matter-quark gluon plasma.
RHIC和LHC上的相对论性重离子实验的一个主要目标就是寻找这种新的物质形态—夸克胶子等离子体。
来自互联网
22. It is important to measure meson productions in heavy ion collisions in order to understand the dynamics of heavy ion reactions and the properties of nuclear matter.
重离子反应中介子产生的观测对于认识重离子反应动力学和核物质性质具有重要的意义。
来自互联网
23. The Barrier Penetration Model has been used to calculate the heavy ion fusion cross section and it does give a good description of the experimental data in existence.
本文利用势垒穿透模型计算重离子融合反应截面,我们发现理论计算结果同现有的实验数据符合得相当好。
来自互联网
24. A equipment of research of atomic high-ionized state is introduced, including heavy ion accelerator, instrument of measurement, data acquisition and data processing system.
介绍了原子高离化态研究装置,包括重离子加速器、测量装置、数据获取和处理系统。
来自互联网
25. By using RQMD Monte Carlo generator model, we performed an investigation on the yield ratio of various particles in relativistic heavyion collisions in high energy physics.
本文用RQMD模型对高能物理中的相对论重粒子碰撞中的各种粒子的产额比进行了研究。
来自互联网
26. Comparing with the temperature in the heavy ion collisions, the temperature in the intermediate energy spallation reaction is lower when the incident energy is not very high.
与重离子碰撞相比,散裂反应在入射能量不太高的情况下反应过程的温度比较。
来自互联网
27. Thus, the centrality and system-size dependence of elliptic flow at different beam energies can be used to study the properties of the matter created in heavy ion collisions.
28. The temperature record is likely to stand until after the Large Hadron Collider, or the God Machine as it has been dubbed, starts its heavy ion collisions near the end of this year.
这个温度记录可能要保持到年底,直到被称为大型强子对撞机或神机的试验设备开始重离子撞击之前。
来自互联网
29. Microwave phase shifter in phased-array radar, communications, instrumentation, heavy ion accelerator and the missile attitude control system has a broad application prospects.
微波移相器在雷达、通信、仪器仪表、重离子加速器及导弹姿态控制系统中有着广泛的应用前景。
来自互联网
30. Microwave phase shifter in phased-array radar, communications, instrumentation, heavy ion accelerator and the missile attitude control system has a broad application prospects.
