probability of ionization 中文意思是什麼
probability of ionization
解釋
電離概率- probability : n 1 或有;或然性。2 【哲學】蓋然性〈在 certainly 和 doubt 或 posibility 之間〉。3 【數學】幾率,...
- of : OF =Old French 古法語。
- ionization : n 【物理學】電離(作用);離子化。 ionization by impact [light] 碰撞[光感]電離。 ionization const...
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In the chapter four, we studied some low - lying absorption spectroscopy and the resonant absorption probability of bohrium ( z = 107 ) by using mcdf method which included the correlation effects and relativistic effects systematically. we got some satisfied results of the ionization energy which make a good agreement with the results obtained by the semi - empirical method
論文第四章通過系統考慮電子相關效應和相對論效應,使用mcdf方法進一步預言了107號元素bh的幾個較低的激發態能級以及由基態到這些激發態的共振吸收率,得到的電離能和使用半經驗方法得到的電離能結果具有很好的一致性。 -
An increase in the energy of the electrons increases the probability of ionization.
增加電子能量,會增加電離幾率。 -
The result shows that argon gas can not only promote the excitation of plasma at low pressure, but also improve discharge state, increase the density and activation of reaction radical and improve the quality of diamond films. on the other side, argon can cool the plasma and maintain low temperature of substrate due to its big ionization section and high collision probability with gas molecules
結果表明,氣體系統中引入氬氣一方面不僅有利於維持低壓放電,而且改善放電狀態,提高反應活性基濃度和活性,提高低溫沉積金剛石膜的質量;另一方面,由於其大的電離截面使其和電子碰撞的幾率大大提高,對等離子體進行冷卻,有利於基片溫度的降低。 -
We calculate high order harmonic generation and ionization probability of one - dimensional atom in intense laser field. our results are in good agreement with those of split - operator method
) dinger方程,研究了一維模型原子在強激光場中的高次諧波和電離幾率,其結果與分裂算符方法所得的結果符合得很好。 -
Finally, by using split - operator method to solve time - dependent schrodinger equation of two - dimensional atom in intense laser field, we calculate high order harmonic generation and ionization probability of two - dimensional atom in intense laser field and compare our results with those of one - dimensional atom with same binding energy. it i & found that the cutoff position of high order harmonic generation obtained by using these two models are same, but there are great differences in ionization probability
) dinger方程,研究了兩維模型原子在強激光場中的高次諧波和電離幾率,並與具有相同基態能量的一維模型原子所得的結果進行了比較,結果表明,用這兩種模型所得的高次諧波的截止位置相同,但電離幾率有很大的差異。 -
We studied the effects of pulse - shape, an additional static electric field and different initial states on ionization probability and hhg. we did so by representing the results of a series of numerical experiments on a one - dimensional model hydrogen atom
本文將採用數值計演算法來求解含時schrodinger方程,研究在一維氫原子模型中,外加的平行靜電場,不同形狀的激光脈沖以及原子處于不同初始態對諧波譜線和電離率的影響。 -
The series of results showed that there is a close relationship between the ionization probability and the pulse - shape, which in turn affects the hhg. when the pulse is turned on very slowly or rapidly the character of hhg wo n ' t be obvious. only if the turn - on is proper the spectrum of hhg will be ideal
當激光脈沖的時間長度不變時,脈沖開啟的快慢會影響到電離率和高次諧波,開啟很慢或很快時,諧波的平臺結構都不明顯;只有在適當的開啟下,電離率處于中間值,這時高次諧波譜線才比較理想。 -
In chapter four the effects of a static electric field and different initial states on hhg are studied. under an additional electric field the spectrum exhibits a double - plateau structure. furthermore, the ionization probability and hhg also behave differently when the hydrogen atom is in different initial states
在第四章中,我們研究了外加平行靜電場以及初態的不同對電離率和高次諧波的影響,發現附加一適當的靜電場會使諧波曲線呈現一雙平臺結構,電離率會隨著電場強度的增大而增大;當氫原子在初始時刻處于不同態時,根據選擇定則,諧波曲線和電離率都會有較大差別。
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