激发态英语怎么说

admin2024年11月01日中英词典1390

本文为您带来激发态的英文翻译,包括激发态用英语怎么说,激发态用英语怎么说,激发态的英语造句,激发态的

本文为您带来激发态的英文翻译,包括激发态用英语怎么说激发态用英语怎么说激发态的英语造句激发态的英文原声例句激发态的相关英语短语等内容。

激发态的英文翻译,激发态的英语怎么说?

  • excited state

激发态的英语网络释义

... excited level 受激电平,受激能级... excited state 激发态 excited monomer 受激单体 ...

... rigid d 刚性的 excited d state 激发态 scalar r 标量 ...

... excitation n 激发 excitation n state 激发态 experiment t 实验 ...

激发态的汉英大词典

激发态

  • {量子} excitation state; excited state

激发态的英语短语

  • 超激发态superexcited state

  • 低激发态low excited state

  • 未激发态unexcited state

  • 激发态分子内质子转移ESIPT;Excited State Intramolecular Proton Transfer

  • 激发态光激学excited state spectroscopey

  • 高激发态highly excited level;Highly-excited state

  • 激发态质子转移ESPT;excited state proton transfer

  • 电子激发态excited electronic state;electron excitation states;electronically excited state

激发态的英文例句

它们处在激发态,它们上蹦下串的,它们发出光芒。

And they are excited and they are jumping up and down and they are emitting.

比如苯环,也就是最低电子态,远低于第一激发态

If you have benzene, for example, the lowest electronic state, is quite far below the first excited state.

这对研究分子高激发态的结构是很重要的。

This would be significant in the study of molecular structure at high excited state.

激发态质子转移光谱是一种溶剂笼分子光谱。

Excited state proton transfer spectroscopy (ESPTS) is a kind of solvent cage molecular spectroscopy.

以不同的波矢对谱函数给出不同的激发态模式。

Different excited state model of the spectral functions are given for different wave vectors.

通过曲线拟合,得出了它们的激发态吸收截面。

Excited state absorption cross sections are obtained through Z-scan curve fitting.

关于电子激发态的计算,一直是理论化学的挑战。

The calculation of the electronically excited state is still a challenge in theoretical chemistry.

到目前为止的kT都比第一激发态能级低,所有状态都在基态。

Where the kT is lower than, by far, than the first excited level. Everything's in the ground state.

计算结果表明,激发态反应活化位垒都比基态的低。

The activation barriers for the exited - state reactions are lower than that of the ground- state.

管内的等离子体处于激发态时,可以轻易地辐射,吸收。

When in an energized state, the enclosed plasma can readily radiate, absorb or reflect electromagnetic waves.

实验表明,偏振光技术在识别原子高激发态光谱中有重要意义。

It shows that the technique has important significance in the identification of highly excited spectra of atoms.

他长期致力于原子、分子激发态结构和其动力过程之基础研究。

He has long been dedicated to basic studies on atomic and molecular exited structures and processes.

激发态原子的自发辐射现象是量子光学领域是最基本的过程之一。

The spontaneous emission phenomenon of an excited atom is one of basic processes in quantum optics.

这将使分子跃迁到另一个激发态,从中我们可以用另一种激光,把它分成两个原子。

This excites the molecule into another excited state, from which we can, with another laser light, break it down into two atoms.

本文报道用双色三光子共振电离法测量钐原子高激发态78个新能级。

The paper reports the measurement of 78 high-lying levels in samarium atoms by two-colour three-photon resonant ionization.

对于激发态的构型优化和能量精确计算也探索出了一套有效的工作步骤。

Some work steps to calculate the equilibrium geometry and the accurate total energy of an excited state are given also.

而且,随着溶剂极性的增加,激发态的激发能减小,双光子吸收截面增大。

Furthermore, with the increase of the polarity of solvent, the excited energies is decreased and the tpa cross section is increased.

本文利用势模型方法研究了重双夸克在不同角动量时的基态和激发态能谱。

In this paper, by using potential method we discuss the energy spectrum of diquark on ground state and excited state with different angular momenta.

然而,体系激发态的第一性原理理论及其计算要比基态的理论计算复杂得多。

However, the first principles computation of excited states is more complexity than ground-state calculations.

在空气中的激发态水分子放射出微波从而刺激邻近的水分子放射出更远的微波。

Excited water molecules in the air emit microwaves thatthen stimulate the emission of further microwaves by their neighbours (this ishow a laser works).

原子激发态是不稳定的,其必然会自发地向低能级衰变,产生自发辐射现象。

Atom's motivated state in not stable, it inevitably disintegrate into the lower energy state, which makes the phenomenon of the spontaneous radiation.

通过紫外线光电子光谱和光学吸收的测量,研究人员测定了纳米晶体中电子的最低激发态能级。

By using UV photoelectron spectroscopy and optical absorption measurements, the researchers determined the energy of the lowest excited electronic states in the nanocrystals.

主要的研究内容有:(1)初步确定了样品中元素激发态原子发射谱线的元素归属。

The main contents are as follows: (1) some characteristic emission lines of neutral atoms in excited states are identified.

激发态相关基函数理论,计算了电子-电子相互作用对导电聚合物能带宽度的影响。

By using the electron correlated basis function of excited state, we calculate the effect of electron interaction on the bandwidth of conductive polymers.

在强电场下,反向极化消失,极化子单激发态解离为一个单极化子和一个双极化子态。

The inversed polarization will disappear under a strong electric field and the single excited state of a polaron will dissociate into a polaron and a bipolaron.

因此,这就意味着激子从纳米管外层流向内层,并以较低(但仍为激发态)的能态存在于纳米管中。

In this case, that means the excitons in the outer layer flow to the inner layer, where they can exist in a lower (but still excited) energy state.

利用强激光场电离和离解分子来研究分子激发态的波包结构是强场物理的重要研究方向。

The studies of the wavelet structures of the molecular excitations with the high intense laser are very active in the strong laser field physics.

“正因为如此,在弛豫期间激发态间电子相干的传递通常是忽略不计的,”Engel解释道。

“For this reason, the transfer of electronic coherence between excitons during relaxation has usually been ignored,” Engel said.

“正因为如此,在弛豫期间激发态间电子相干的传递通常是忽略不计的,”Engel解释道。

“For this reason, the transfer of electronic coherence between excitons during relaxation has usually been ignored,” Engel said.

激发态的原声例句

So now we can just take the negative of that binding energy here, and I've just rounded up here or 1 . 4 times 10 to the negative 19 joules.

等于4是第三激发态,现在我们可以取它结合能的负值,也就是1。4乘以10的负19次方。

So if we're talking about the fourth excited state, and we talk instead about principle quantum numbers, what principle quantum number corresponds to the fourth excited state of a hydrogen atom.

如果我们说的是,第四激发态,我们用,主量子数来描述,哪个主量子数对应了,氢原子的第四激发态

And they are excited and they are jumping up and down and they are emitting.

它们处在激发态,它们上蹦下串的,它们发出光芒。

We're always talking about the ground state unless 1 we specify that we're talking about an excited state.

我们指定说讨论激发态,而且对于电子。

So, what we know is happening is that were having transitions from some excited states to a more relaxed lower, more stable state in the hydrogen atom.

我们知道,这里所发生的是,氢原子从激发态到更低更稳定的态的跃迁,而我们用眼睛可以探测到的。

So another way to say that is, in a sense, if we're thinking about the excited state of a hydrogen atom, the first excited state, or the n equals 2 state, what we're saying is that it's actually bigger than the ground state, or the 1 s state of a hydrogen atom.

换句话说,如果我们激发一个氢原子,第一激发态或者说n等于2的态,我们说它比氢原子基态,或者说1s态要大。

So the key word here is that we asked you to identify the third excited state. So, what white is n equal 4Ok to for the third excited state? 4 OK.

这里的关键的地方是我,要你们找到第三激发态,第三激发态的n等于多少?

So that explains probably most of the confusion here and you just want to be careful when you're reading the problems that that's what you read correctly. I think 4 everyone would now get the clicker question correct.

这可能解释了大部分人的混淆之处,你们读题目的时候一定要仔细,我相信现在每个人都能回答正确了,第三激发态,n等于。

Then we would be able to change our equation to make it a little bit more specific and say that delta energy here is equal to energy of n equals 6, minus the energy of the n equals 2 state.

第一激发态,我们就可以把方程,变得更具体一点,能量差,等于n等于6能量,减去n等于2的能量。

So, the third excited state, is n equal to 4, because n equals 2 is first excited, 3 is second excited, 4 is third excited state.

因为n等于2是第一激发态,等于3是第二激发态

So, for example, we could talk about the n equals 2 state, so that's this state here, and it's also what we could call the first excited state. So we have the ground state, and if we excite an electron into the next closest state, we're at the first excited state, or the n equals 2 state.

例如,我们可以考虑n等于2的状态,它在这里,它也被称作是第一激发态,我们有基态,如果我们把一个电子,激发到它最近邻的态,那就是第一激发态,或者n等于2的态。

激发态的网络释义

激发态 原子或分子吸收一定的能量后,电子被激发到较高能级但尚未电离的状态。激发态一般是指电子激发态,气体受热时分子平动能增加,液体和固体受热时分子振动能增加,但没有电子被激发,这些状态都不是激发态。当原子或分子处在激发态时,电子云的分布会发生某些变化,分子的平衡核间距离略有增加,化学反应活性增大。所有光化学反应都是通过分子被提升到激发态后进行的化学反应,因此光化学又称激发态化学。电离辐射(或电磁辐射)与物质作用中,当转移到原子或分子的能量低于其电离电位而又足以使电子跃迁到较高能级时,原子或分子处于激发态。激发态和基态具有不同的位能曲线和平衡核间距。

以上关于激发态的英语翻译来自英汉大词典,希望对您学习激发态的英语有帮助。

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