荷電粒子 的英文怎麼說
中文拼音 [hédiànlìzi]
荷電粒子
英文
charged particle beam-
Similarly the positively charged proton has a negatively charged antiparticle, the antiproton
同樣的,帶正電荷的質子具有其帶負電荷的反粒子?即反質子。The electron, for example, has negative charge, whilst its antiparticle, called the positron, has positive charge
舉例說明,比如電子帶負電荷,同時,它的反粒子被稱作正電子?帶有正電荷。Dirac's theory also predicted a negatively charged sister for the proton, called the antiproton.
狄喇克的理論還預言有一種質子的姐妹粒子,帶負電荷,叫做反質子。Charge conjugation parity
粒子電荷共軛宇稱For electrodeposition by dc methods, the metals deposite uninterrupted and the particles were also embeded uninterrupted into the coatings ; for electrodeposition by pc method, the particles with biggish volume were desorbed from the coatings and returned to the electrolyte again owing to the presence of pulse interval ; for electrodeposition by prc method, the particles carried positive charges are much more easy to desorb from the coatings owing to the effecf of reverse pulse current combined with pulse interval, in addition, the reverse pulse current also could dissovle the metals, further accelerates the desorption of particles, thus the particles size embeded in the coatings by prc method is the least
直流電沉積時,基質金屬的沉積連續進行,粒子在電極表面不間斷嵌入鍍層;單脈沖電沉積由於脈沖間歇的存在使得具有較大體積的粒子會脫附,重新回到溶液中;採用周期換向脈沖時,反向脈沖電流使表面荷正電的較大的粒子更易從電極表面脫附,同時,反向脈沖電流對基質金屬的溶解作用,也會促進粒子的脫附,因此鍍層中復合粒子尺寸最小。隨著鍍層中粒子復合量的增加,三種鍍層的晶粒都明顯細化,說明al _ 2o _ 3的存在阻止了晶粒的長大,提高了電沉積過程中晶核的形成速率。Radiation spectrums of relativistic charged particles in a dipolar magnetic field were studied numerically in detail by using the current density of moving charged particles in this paper
摘要從運動的荷電粒子產生的流密度出發,研究了在地球偶極磁場中運動的相對論性荷電粒子的輻射能量譜,並對其進行數值計算。Charged particle beam
荷電粒子We regard electrons as particles because they posses charge and mass.
我們認為電子是粒子,這是因為電子帶有電荷,有其質量。A hypothetical particle postulated to be the quantum of gravitational interaction and presumed to have an indefinitely long lifetime, zero electric charge, and zero rest mass
引力微子一種假想粒子,被假定為引力相互作用的量子,並被推測為具有無限長壽命、零電荷和零靜止質量While the magnetic field on the earth which traps charged particles encircling the earth into radiation belts called the van allen belts normally protects our planet from the solar wind, it may be deformed in the event of violent solar wind, resulting in a geomagnetic storm on earth
雖然地球上的磁場能將環繞地球的帶電荷粒子困於其輻射帶van allen belts ,一般能有效阻擋太陽風,但在猛烈太陽風情況下它可能受影響而變形,導致地磁暴的出現。While the magnetic field on the earth ( which traps charged particles encircling the earth into radiation belts called the van allen belts ) normally protects our planet from the solar wind, it may be deformed in the event of violent solar wind, resulting in a geomagnetic storm on earth
雖然地球上的磁場能將環繞地球的帶電荷粒子困於其輻射帶( vanallenbelts ) ,一般能有效阻擋太陽風,但在猛烈太陽風情況下它可能受影響而變形,導致地磁暴的出現。It is electrically neutral and has only a small mass. they only take part in weak interactions and gravity. since they interact only very weakly with matters, they could pass through almost anything unimpeded
中微子是基本粒子之一,它不帶電荷,質量極小,只參予弱作用及重力,與任何物質只有極微弱的相互作用,因此穿透力極高。A charge conservation statistics enhancement method used in semiconductor divice monte carlo simulation is approached, which smoothes the charge fluctuation caused by the statistics enhancement, and keeps the continuation of cross edge charge flow
摘要介紹了一種在半導體器件蒙特卡羅模擬中保持電荷守恆的統計增強方法,該方法消除了由統計增強引入的電荷統計漲落,保持了不同增強區界面處過界粒子流的連續性。Charged particle spectrograph
荷電粒子譜儀Leds are made from two halves of a special materialcalled a semiconductor. one half is filled with negatively - chargedelectrons and the other with positively - charged areas called holes
Led是兩塊特殊的材質所組合而成,是我們常見到半導體的一種。一邊是帶有負電荷的電子,另一邊是帶有正電荷的粒子,通常稱之為電洞。When a charged particle zips through the chamber, the vapour condenses into a trail of droplets showing the particle ' s path and, if the box is placed in a magnetic field, its electrical charge
當一個帶電粒子快速進入雲室,它所過之處,蒸汽將凝結成小水滴,顯示粒子運動的軌跡,若雲室被置於磁場當中,粒子所帶電荷也會顯示出來。In particular the characteristics of the radiation spectrums were described
分析了相對論性荷電粒子在地球偶極磁場這種特殊磁場中的輻射特點。After the event - by - event charged particle ratio fluctuations were proposed by s. jeori, v. kock et al. as a signature of qgp formation, it had evoked extensive interesting theoretically and experimentally
Kock 、 m人sakawa等人提出荷電粒子比的單事例起伏可以作為qgp形成的特徵信號后,引起了理論和實驗物理學家的) 』 「泛興趣。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。A powerful electric field points from the positive to the negative region and will accelerate any charged particles that come under its influence
由正電荷指向負電荷的強力電場,會對受影響的所有帶電粒子做加速。分享友人