Ultraviolet radiation has a very narrow line width and a high flux of photons available from simple discharge sources. Higher resolution UPS scans allow for the observation of the fine structures that are due to vibrational levels of the molecular ion which, then, allows molecular orbital assignment of specific peaks.
William Charles Price has written: 'A discussion on photoelectron spectroscopy' -- subject(s): Photoelectron spectroscopy
The utilization of photo-ionization and kinetic energy distribution analysis of emitted photoelectrons to study the electronic state and composition of the surface region of a sample is known as photoelectron spectroscopy. This technique can be subdivided into two areas: X-ray photoelectron Spectroscopy and Ultraviolet Photoelectron Spectroscopy.
J. H. D. Eland has written: 'Photoelectron spectroscopy' -- subject(s): Photoelectron spectroscopy
W. C. Neely has written: 'X-ray photoelectron spectroscopy (XPS), Rutherford back scattering (RBS) studies ..' -- subject(s): Aluminun alloys, Auger spectroscopy, Backscattering, Electron transitions, Photoelectron spectroscopy, X ray spectroscopy
Stefan Hfner has written: 'Photoelectron spectroscopy'
A photoelectron is an electron emitted from a material when it absorbs energy from light, typically ultraviolet or X-ray radiation. This process is known as the photoelectric effect and is used in various scientific techniques such as photoelectron spectroscopy to analyze the electronic structure of materials.
Steven Allen Holmes has written: 'X-ray photoelectron spectroscopy of trifluoromethylbenzenes and chlorofluoromethanes' -- subject(s): X-ray spectroscopy
Bahaa E. A. Saleh has written: 'Photoelectron statistics, with applications to spectroscopy and optical communications' -- subject(s): Statistical methods, Light beating spectroscopy, Photoelectrons, Optical communications, Stochastic processes
Melvin Walter Siegel has written: 'The electron affinity of nitric oxide and the molecular constants of its negative ion, determined by laser photoelectron spectroscopy'
An ejected electron is called a photoelectron.
Photo-electrons are electrons that are emitted from a material when it is struck by photons, typically in the form of light. This phenomenon, known as the photoelectric effect, plays a crucial role in various scientific and technological applications, such as in solar cells and photoelectron spectroscopy.
No, Raman spectroscopy is not emission spectroscopy. Raman spectroscopy involves the scattering of light, while emission spectroscopy measures the light emitted by a sample after being excited by a light source.