In response to an outside electric field, the electron wave is slightly distorted or displaced.
作为对外电场的反应,电子波要稍稍变形或移位。
The characteristics of electron wave functions in one-dimensional incommensurate systems with or without disorder are studied.
本文研究了存在无序及不存在无序两种情况下,一维无公度系统的电子波函数特征。
This method is based on the reflectance and interference effects of electron wave at interfaces between the wells and the barriers.
电子波干涉法是一种新的量子阱探测器能带结构计算方法,该方法是基于电子波在量子阱界面的反射和干涉效应提出的。
As an example, an electron wave diffraction transistor is presented, including its principle, structure, performance and its fabrication.
作为一个例子,介绍了电子波衍射晶体管的原理、结构、制造和性能。
And we can also write this in an even simpler form, which is what's called electron configuration, and this is just a shorthand notation for these electron wave functions.
而且我们也可以将它,写为一个更简单的形式,它叫做电子构型,这个仅仅是这些电子波函数的。
By making use of the strong bound quantum dot model and neglecting the effects of impurity on electron wave function, this thesis is also reported how to use the spin of nuclear as the quantum bit.
利用强束缚量子点模型,忽略杂质对于电子波函数的影响,我们还讨论了如何利用核自旋构造量子位。
De Broglie, 1924, in his PhD thesis says, if an electron has wave-like properties, this would be its wavelength.
1924年德布罗意在他的博士毕业论文中说道,如果一个电子具有类似波的性质,这就是它的波长。
This extension of the photoelectric effect, in which one photon knocks one electron off the edge of an atom, could make physicists reconsider when light is a wave and when it's a particle.
在这种光电效应的延伸中,一个光子从原子的边缘打出一个电子,这可能要使物理学家们重新考虑光在什么情况下是波,什么情况下是粒子。
But before we get to that, in terms of thinking just think, OK, this is representing my particle, this is representing my electron that's what the wave function is.
但是在我们谈论那个部分之前,在理解方面,仅仅是理解,好的,它代表了粒子,它代表了电子,这就是波函数。
Schrodinger came up with an equation that said: "you tell me the forces acting on the electron, and I can tell you what its wave is doing at any point in space and time."
薛定谔建立了一个方程并宣称:“只要你告诉我作用于电子的力,我就能告诉你它在任意时空位置的波函数行为。”
If a proton which has no mass can behave as a particle does it follow that an electron which has mass can behave as a wave?
如果一个没质量的光子能像粒子一样,具有质量的电子能否,表现得像波一样吗?
An electron is a particle, but an electron's also a wave.
电子是粒子,但是电子也是波。
"There's something else happening here," he says. "We call it electron entrainment, since part of the current appears to scale with wave velocity."
他说:“在这里发生了另一种现象,我们管它叫电子输送,因为电流的一部分看似根据波的速度按比例决定的。”
Schrödinger came up with an equation that said: "You tell me the forces acting on the electron, and I can tell you what its wave is doing at any point in space and time."
薛定谔建立了一个方程并宣称:“只要你告诉我作用于电子的力,我就能告诉你它在任意时空位置的波函数行为。”
So we have the operationon the wave function in terms of r, theta, and phi and remember this e is just our binding energy for the electron, and we get back out this wave function.
我们用r,θ,φ来表示,将算符作用于波函数,而且记住e仅仅是电子结合能,然后后面加上波函数。
So you're basically having a wave equation for a particle, and for our purposes we're talking about a very particular particle. What we're interested in is the electron.
所以你们主要有,一个粒子的波动方程,我们的目的是考虑一个特殊的粒子,我们感兴趣的是电子。
Bohr found that an electron has the qualities of both a particle and a wave, a concept known as wave-particle duality, which has become a cornerstone of quantum physics.
玻尔发现电子同时具有粒子和波的性质,这便是波粒二象性。波粒二象性构成了量子物理学的基石。
We are going to say that the electron behaves as a wave.
而要说的是,电子表现像波一样。
No matter where you specify your electron is in terms of those two angles, it doesn't matter the angular part of your wave function is going to be the same.
不论你将,这两个角度,取成什么值,波函数的角向部分,都是,相同的。
We call it electron entrainment, since part of the current appears to scale with wave velocity.
我们将其称为电子夹带(electron entrainment),因为部分电流表现出与波速成比例的态势。
It is found that for the high power nearly perpendicular incident, electron cyclotron wave parametric processes may occur before it encounters the linear mode-conversion-layer.
发现对垂直入射的高功率的电子回旋波,在进入线性模转换层以前,参量不稳定性可以发生。
The plasma wave nonlinear effect of IonChannel Electron Cyclotron Maser (ICECM) is investigated.
研究了离子通道回旋电子束脉塞(ICECM)中的等离子体波非线性效应。
The effect of plasma thickness, wave frequency, electron number density distribution on it is almost independent of the wave polarizing direction.
等离子体厚度、入射波频率、电子数密度分布对功率反射系数的影响几乎与波的极化方向无关。
The wave function of free electron in a strong laser plasma is obtained by solving exactly the Dirac equation in a curved space-time with optical metric for the laser plasma.
借助激光等离子体的光学度规,严格求解了弯曲时空中的狄喇克方程,得到了强激光等离子体中的自由电子波函数。
The rules of electron subband energies and corresponding wave functions depending upon free carrier concentration have been obtained.
得到了电子亚带能量和波函数随自由载流子浓度的变化规律。
The numerical method for resolving the wave propagation and absorption of the electron cyclotron resonance(ECR) is proposed.
介绍了电子回旋共振(ECR)波的传播与吸收的数值求解方法。
So when you operate on the wave function, what you end up with is getting the binding energy of the electron, and the wave function back out.
所以当你将它作用于波函数时,你得到的是电子的结合能,和后面的波函数。
Bohr was able to predict the wave lengths of the light from the makeup of the atom, and the jump from electron orbit to electron orbit.
玻尔根据原子的结构,和在电子轨道间的跳跃情况,就能预见光的波长。
When the laser field is diminshed to zero, the wave function is naturally reduced to relativistic wave function of free electron.
当激光场为零时,该波函数自然地过渡到相对论的自由电子波函数。
The state of electron is described by wave function. Intensity distribution of single slit electron diffraction is derived by probability distribution of electron momentum.
电子状态用波函数描述,由电子动量的概率分布,得到电子单缝衍射的强度分布。
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