奇異粒子 的英文怎麼說
中文拼音 [jīyìlìzi]
奇異粒子
英文
strange particles- 奇 : 奇Ⅰ形容詞1 (罕見的; 特殊的; 非常的) strange; queer; rare; uncommon; unusual 2 (出人意料的; 令...
- 異 : 形容詞1 (有分別; 不相同) different 2 (奇異; 特別) strange; unusual; extraordinary 3 (另外的;...
- 粒 : Ⅰ名 (小圓珠形或小碎塊形物) small particles; grain; granule; pellet Ⅱ量詞(用於粒狀物)
- 子 : 子Ⅰ名詞1 (兒子) son 2 (人的通稱) person 3 (古代特指有學問的男人) ancient title of respect f...
- 奇異 : 1. (奇怪) queer; strange; bizarre; odd 2. (驚異) surprising; curious
- 粒子 : grain; granule
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Abstract : based on the gauge theory of various interactions, some new solutions of the gauge field equations are discussed, the potential is introduced, and the relations among the results and limit cycle, various singular points are derived. finally, it is expounded that these results possess probably physical meaning on the property and phase transition of particles
文摘:從各種相互作用的規范理論出發,討論了規范場方程的某些新的解,並引入了勢,然後探討了它們與極限環、各種奇異點的關系,最後論述了這些結果可能具有的粒子性質和相變等物理意義The model reproduced the following facts of wa97 experimental data : the yield of strange particles increases with increasing mass and increasing centrality of the colliding system, and also with increasing strangeness content of hyperons in relativis - tic nucleus - nucleus collisions. the simulation of strangeness production using luc1ae model shows that strangeness production is related not only to the rescattering. but also to the collective interaction among strings in relativistic nucleus - nucleus collisions
Luciae模型能很好地描寫wa97發表的單奇異和多奇異重子的產額和橫質量分佈的實驗數據,能較好描寫wa97實驗所揭示的相對論性核-核碰撞中奇異粒子產額隨碰撞體系質量、中心度的增大而增加和奇異粒子增強隨奇異粒子所含奇異夸克數的增加而增強的實驗事實。Each particle in the multiplet has the same strangeness.
在多重態內的每個粒子都有同樣的奇異數。The discovery of strange particles lead to a generalization of the law of nucleon conservation.
奇異粒子的發現導致了核子守恆定理的推廣。The collective interaction between strings and the reduced strange quark production mechanism. luciae model can describe the yield and the transverse mass spectra of produced strangeness
Luciae模型包含了弦-弦之間的集體相互作用,產生粒子的次級再散射以及奇異夸克壓低的約化機制對奇異產生的影響。In 1982 professor tsui discovered the remarkable fractional quantum hall effect in his experimental studies of electrons in high - mobility semiconductor heterostructures placed in strong magnetic fields at very low temperatures. professor tsui and his co - workers found unanticipated plateaus in the hall conductivity, characterized by fractional quantum numbers, in contrast to the integral quantum hall effect discovered two years earlier
崔琦教授於一九八二年發現限制在平面上運動的電子系統在強磁場、極低溫的條件下,形成一種奇異的量子液體,它的準粒子元激發具有分數電荷,遂呈現所謂分數量子霍爾效應。The plummeting particles interact with one another, performing computation for a finite time before reaching the center of the hole ? the singularity ? and ceasing to exist
快速墜落的粒子相互作用,在抵達黑洞中心奇異點前的有限時間里進行運算,然後消逝。By virtue of the stochastic bifurcation theory, the transition of the atom movement at a crack tip in fatigue damage system is investigated. using the singular point theory of one - dimensional diffusion process and the stochastic averaging approach of energy envelope, a micro - model to describe the atom movement at the crack tip in homoclinic bifurcation fatigue damage system, which is in the presence of stochastic perturbation, is established. after the study on the characteristic of the diffusion exponent, the drift exponent and the character exponent of the fatigue damage diffusion process on singular boundary, the bifurcation behavior of a homoclinic bifurcation fatigue damage system, which is in the presence of parametric white noise, is examined
採用隨機分叉理論,探討疲勞損傷系統裂尖粒子運動性質突變.利用一維擴散過程的奇點理論,並結合能量包絡的隨機平均法,建立了隨機擾動的疲勞損傷同宿分叉系統裂尖粒子運動模型,通過研究奇異邊界的擴散指數、漂移指數以及特徵指數特性,考查疲勞損傷裂尖粒子運動的同宿分叉系統受參激白噪聲影響的分叉行為According to the general principles of biomineralization, we used many functional organic templates, which can efficiently interact with caco3 crystal, to control the crystal form and the morphology of caco3. many systematic studies o f the influence of various experimental parameters, such as ph of solution, concentration of additives and caco3, temperature, aging time, etc., on the morpho - logy and size of caco3 crystals are investigated
我們系統地分析了各種實驗參數,例如溶液的ph值、有機大分子的濃度、碳酸鈣的濃度、環境溫度、陳化時間等對碳酸鈣粒子形貌及大小的影響,合成出了一系列具有奇異形貌的碳酸鈣材料,豐富了碳酸鈣形貌的種類,並對這類材料的礦化機理進行了較深入的研究。Nano - materials have many novel and unique properties with ultrafine grains which are no more than 100nm. interest is increasing in the physical properties of nanophase materials because of their potential applications
納米材料是指晶粒尺寸在100nm之內的材料,具有奇異的結構和獨特的性能,帶動了材料、電子、機械、物理等學科的發展,被稱為21世紀的材料新星。Only quantum mechanics can provide the answer : the particle ' s position will have an uncertainty that follows the heisenberg uncertainty principle, such that it might not really reach the singularity and thus escape the possible collapse to infinite density
只有量子力學可以提供答案:粒子的位置將具有不確定性,它們遵守海森堡測不準原理,因而它可能不是真的達到奇異而因此逃逸了可能的坍塌達到無限密度。As an example, general relativity is unable to explain what will happen if a subatomic particle hits the singularity of a black hole which is a phenomenon predicted by general relativity and involves gravity in the macro world
如例,廣義相對論就不能結解釋如果一個次原子粒子偶然碰上黑洞的奇異所要發生的,廣義相對論預言了這個現象而牽涉宏觀世界引力。分享友人