粒子間的 的英文怎麼說
中文拼音 [lìzijiānde]
粒子間的
英文
interparticle-
Encounters of like charges act to diminish the coagulation rate.
同性帶電粒子間的碰撞作用減少凝聚率。In an aerosol containing equal numbers of charged particles of both signs, the diffusive encounters for oppositely charged particles are more effective than for uncharged particles.
若氣溶膠中含有等量正負帶電粒子,那麼正負帶電粒子間的擴散碰撞比非帶電粒子更容易實現。The energy equipartition time is longer than the interparticle collision time by the mass ratio of proton and electron.
由於質子與電子的質量比很大,能量平衡時間比粒子間碰撞時間長。The usual diffusion random walk treatment does not consider any interaction between the particles.
一般的擴散無規則運動理論並不考慮粒子間的任何作用。Both the red shift of the plasmon absorption band and the sers effect result from the interparticle interactions of gold nanoparticles within the films
吸收峰紅移及sers效應與薄膜中的金納米粒子間的電磁耦合作用有關。In this paper, three unique models were designed to research atom diffusion at interface, contacting line and joining point under bpec heating and compare with it under radiation heating in order to find out if bpec speed atom diffusion. the first model was aimed to research atom diffusion at interface under bpec heating. experiment condition of bpec diffusion welding sheet cu and ni : direct diffusion welding, at a pressure of l0mpa, welded at 750 ~ 900, with heat rate of 200 ~ 400 / min for 10mm, on / off of 6 / l ~ 48 / 8, with die or not, vacuum of 6pa
本文設計出三種樣品預構件,研究脈沖大電流加熱條件下片狀材料、線狀材料和球形顆粒之間的原子擴散過程,弄清脈沖大電流加熱條件下原子擴散與一般燒結和焊接過程中原子擴散的區別,以證實特殊的電場和磁場是否對原子的擴散有推動作用,揭示脈沖大電流加熱條件下原子的擴散過程,探索脈沖大電流熱加工技術快速高效的原因。The entropy or number of states of system or subsystem are closely related to interaction of particles and energy level distribution, therefore, to study the temperature dependence of the specific heat may supply some important and useful microscopic information which may play an important role in understanding electronic structure, density of state, phonon spectrum etc. the specific heat measurements at low temperatures also play important roles in the finding of the third law of thermodynamics, the quantum theory of solid and bcs theory for superconducting etc. moreover, specific heat measurements help us to understand the different kinds of phase transitions ( such as : structural phase transition, magnetic phase transition, superconducting phase transition etc. ) and the scaling behavior near the critical point
系統、子系統的熵或微觀狀態數與微觀粒子間的相互作用及能級分佈密切相關,因此研究比熱與溫度的依賴關系能夠提供被測量系統許多極其有用的微觀信息,對理解固體的電子結構、電子態密度、聲子譜等起著十分重要的作用。低溫比熱的測量和研究對熱力學第三定律、固體量子理論和超導bcs等理論的建立起到了積極的推動作用。比熱研究還有助於認識各類相變如結構相變,磁性相變,超導相變等及臨界點附近的標度規律。The study indicates that self - assembly monolayer membrane of au nanoparticle distributes as sub - monolayer. after au nanoparticles are assembled in multilayer, surface plasma resonance absorption peak got a red shift because of the polarizing effect of the surrounding media and the coupling effect of surface plasma waves between the next au nanoparticles
研究表明au納米粒子的自組裝單層薄膜呈亞單層分佈, au納米粒子組裝到多層復合薄膜中后,由於周圍介質的極化作用以及相鄰au納米粒子間的表面等離子體波的耦合作用,表面等離子共振吸收峰出現紅移和展寬。The strong interaction between two nuclear particles gives rise to a very strong force only when they are close together.
兩個核粒子間的強相互作用僅在粒子十分接近時才能形成很強的作用力。Without grids, the interaction effect among neighboring particles can be simulated by means of the kernel function, based on which the governing equation is discretized by establishing the smoothing model, the gradient model and the second - derivative model ( i. e. the laplacian model )
在無網格條件下,粒子間的相互作用通過核子函數來表示,並通過建立物理量光滑模型、梯度模型和二階導數模型來離散控制方程。The mutual effect potential among particles expresses the mechanical and thermal properties. eos can be obtained by the mutual effect potential and by taking advantage of the correlated theory of thermodynamics. so we can see that the relationship between eos and the mutual effect potential is tight and the research of the relationship is an important branch in the basic field
粒子間相互作用勢反映了組成物質系統的粒子間的力學及熱學特性,通過粒子間的相互作用勢,利用相關熱力學理論可以得到物態方程,所以物態方程和粒子間相互作用勢關系緊密,對它們的研究,也是物理學中的一個基礎課題和重要內容。Twelve of them are the building blocks of matter, and the rest mediates the interactions between particles
其中十二種是組成物質的原料,剩下的六種用來傳遞粒子間的相互作用。Pso find optimal regions of complex search spaces through the interaction of individuals in a population of particles
它利用一個粒子群搜索解空間,每個粒子表示一個被優化問題的解,通過粒子間的相互作用發現復雜空間中的最優區域。Everything that happens in our world ( except for the effects of gravity ) results from standard model particles interacting according to its rules and equations
世界上所發生的一切事情(除了重力現象) ,全都來自標準模型粒子,而粒子間的交互作用所依循的是模型中的規則與方程式。The measurement erases the information from its original location, but because of entanglement, that information resides in an encoded form on the second particle, no matter how distant it may be
這個量測的動作會清除該處的資訊,但因纏結的緣故,不論粒子間的距離有多遙遠,該資訊會以密碼的形式儲存在第二個粒子上。Comparing to the single - particle system, in n - body problems, not only the external condition is considered, but also the mutual interaction, so it is more complex to compute than in the single - particle system
與單粒子系統相比,在多粒子系統中,不僅要考慮外界的條件,還考慮粒子間的相互作用,所以多粒子系統要比單粒子系統復雜。In this wave function, we consider the whole coulombic correlation among the particles, and the effect of the interchanged term caused by the same particles. where a and are the two variational parameters, and the parameters of ax and yx are determined by the two equations obtained from the variation of the energy of excitons
) 2 ) ,在波函數中,考慮到了粒子間的全部庫侖相互作用,並且計入因相同粒子不可識別所帶來的交換項的影響,和是變分參數,而_ x和_ x由變分激子態的能量得到的兩個方程確定。The result indicates that for enhancing particle target collection efficiencies, the inertia effect of particle and the coulombic force between particles should be carefully distinguished in different particle size ranges ; and proves that when droplets are weakly charged, it is still effective for the collection of sub - micron charged particles
結果表明,在不同粒徑區間內,粒子的慣性效應和霧滴與粒子間的庫侖力對強化粒子靶效率的作用需要仔細加以辨認,同時證明?當霧滴弱荷電時,對亞微米帶電粒子捕集依然是有效的。So the conductive behavior in ac field was equivalent with the parallel connection of a resistor and a capacitor, the nonlinearity of v - i characteristics originate from a combination of the implication of the nonlinear contribution of tunnel conduction between graphite particles and the production of additional conducting pathways under sufficiently strong local fields, which is the function of the gap between graphite particles and has a relation with the transition ability of electrons
導電瀝青混凝土的導電行為則可用隧道效應進行分析,交變電場中的導電行為可等效為電阻r和電容c並聯,非線性v - i特性產生於隧道效應時粒子間的非線性導電和高電場時誘發額外的導電通路,二者是粒子間隙的函數,與電子躍遷能力有關。The o. z. equation describes the relation between the direct and total correlation functions, and this relation can be interpreted that the total correlation function of two particles is the sum of direct correlation and indirect correlation transferred by all other particles
)方程從直觀上是很容易理解的,它表示了系統中任意兩個粒子間的總關聯是它們之間的直接關聯和所有間接關聯的總和。分享友人