Examples of 'photoelectron' in a sentence
Meaning of "photoelectron"
Photoelectron is a noun that refers to an electron emitted from a surface in a phenomenon known as the photoelectric effect, usually caused by the absorption of electromagnetic radiation such as light
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- An electron ejected from the surface of a material by the photoelectric effect.
How to use "photoelectron" in a sentence
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photoelectron
Look at the rise of the photoelectron integral.
Photoelectron spectrum under atmospheric pressure.
Above threshold ionization photoelectron spectra.
Thus the photoelectron velocity is much less than the energetic electrons.
Both systems were studied by techniques based on photoelectron spectroscopy.
Ultraviolet photoelectron spectroscopy.
One of the most useful research methods is currently photoelectron spectroscopy.
Both these elementary layers are photoelectron generating layers as in the first embodiment.
The amplification process does not produce a constant number of electrons per incident photoelectron.
Especially for noisy photoelectron images this new algorithm delivers better results.
A prior calibration phase makes it possible to evaluate the individual delay of each photoelectron multiplier.
This is evidently the first photoelectron emission microscope PEEM.
The X ray photoelectron spectroscopy shows that the produced aggregates have the stoichiometry of bulk material.
Increasing light intensity will proportionally increase the rate of photoelectron emission in the photovoltaic material.
Ii Apparatus for photoelectron spectrometry on actinide solids of high specific activity.
See also
Electron spectroscopy and x-ray photoelectron spectroscopy.
X-ray photoelectron spectroscopy of organic thin films.
Ultraviolet-excited photoelectron spectroscopy.
X-ray photoelectron spectroscopy study of automotive exhaust gas catalysts.
The boron incorporation was estimated from x-ray photoelectron spectroscopy.
The x-ray photoelectron spectroscopy was used for the measurements.
Excited-state ionization energies can be measured by photoelectron spectroscopy.
The more photoelectron multipliers there are, the better is the spatial resolution.
The lifetime of a photohole, however, does not correlate with that of a photoelectron.
In the ensuing photoionization, a cation and a photoelectron are formed for each sample molecule.
During the photoelectric effect what is the ejected electron called? photoelectron.
Then, the curvature of the band occurs and the photoelectron extraction efficiency is improved.
Photoelectron spectroscopy allows both the determination of adiabatic ionization energy and Franck-Condon factors.
This should be considered to be a serious alpha and photoelectron emitter inhalation hazard . ”.
An X-ray photoelectron spectroscopy depth profile for the sealed cerium coating is given in Figure 6.
When a radiation penetrates into a scintillator, it generates a scintillation detected by the photoelectron multipliers.
Simplified diagram of an X-ray photoelectron spectroscopy system.
X-ray photoelectron spectroscopy A spectroscopic technique used to measure the composition of a material.
In the first part, the hindered rotation of molecular adsorbate and photoelectron backscattering are presented.
The X-ray photoelectron spectroscopy may be abbreviated to XPS or ESCA as well.
An electron-optical system for focusing electron trajectories and producing a photoelectron energy gain ;.
This can be ascertained by X-ray photoelectron spectroscopy as explained further on.
However, this effect is less apparent in the F 1s core hole photoelectron spectra.
Table 2 exhibits the results of the x-ray photoelectron spectroscopic analysis of several of the Examples.
The chemical composition of the surfaces was analysed with X-ray photoelectron spectroscopy.
Importantly, these are the first photoelectron micrographs of the WSSV in Brazil.
The photoionization dynamics of CS have been studied using high-resolution laser photoelectron spectroscopy.
The HT coatings were characterized using X-ray photoelectron spectroscopy and scanning electron microscope.
The predicted molecular orbital energies as stipulated by Koopmans ' theorem correlate with photoelectron spectroscopy.
The measurement conditions with X-ray photoelectron spectroscopy is as following.
The X-ray photoelectron spectroscopy of the N ls and C ls core levels are also discussed.
In order to escape from the sample into vacuum, a photoelectron must travel through the sample.
Key words, photoelectron spectroscopy, vibronic coupling, photoionization.
These systems were studied with two complementary techniques, photoelectron spectroscopy and pump-probe reflectivity.
X-ray photoelectron spectroscopy of the sample of glass carbon plates 1.
