Examples of 'raman scattering' in a sentence
Meaning of "raman scattering"
raman scattering - a phenomenon in physics where light or radiation is scattered by molecules or particles, leading to changes in its frequency and intensity. It is commonly used in spectroscopy and can provide information about the chemical composition and structure of materials
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- the Raman effect
How to use "raman scattering" in a sentence
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raman scattering
Raman scattering from polymorphic silicon under stress.
Detection of materials based on raman scattering and laserincluded fluorescence by deep excitation.
Raman scattering is the result of a virtual electronic state induced by the excitation light.
Elimination of optical power limitation due to stimulated raman scattering in fiber optic links.
Raman scattering or the Raman effect is the inelastic scattering of a photon.
System and method for reducing the stimulated raman scattering crosstalk in channel monitoring.
The Raman scattering signal was obtained by subtracting the two spectra.
This process is thus called spontaneous Raman scattering.
Techniques to detect Raman scattering are well known in the art.
Various techniques are proposed for limiting stimulated Raman scattering.
Cascading makes stimulated Raman scattering amplifiers very desirable.
The first is fluorescence and the second is Raman scattering.
The intensity of the Raman scattering is proportional to this polarizability change.
This is referred to as Raman scattering.
A comparative resonant Raman scattering study was made on films and individual wires.
See also
Amplification is advantageously effected in the amplifier fiber by stimulated Raman scattering.
This results in an increase in the Raman scattering intensity by a factor up to a million.
Standard spectrometers using scanning monochromators may be used to measure Raman scattering.
A similar phenomenon occurs when the Raman scattering of a molecule is examined.
The most significant types of scattering in this context are Rayleigh and Raman scattering.
Both techniques make use of Raman scattering of laser light by the atoms.
These nanophononic platforms have been characterized through high resolution Raman scattering measurements.
This prevents a disturbance of the Raman scattering spectrum in the vicinity of the particle.
Suitable means may include means to detect fluorescence or means to detect Raman scattering.
Spectroscopic imaging based on Raman scattering can also be improved using a metal nanoparticle.
At that point the incoming photons would be free to excite Raman scattering and SERS.
This phenomenon is now called Raman scattering and is the result of the Raman effect.
The Raman scattering can be detected because it has different wavelength from the incident light.
Owyoung and Jones performed a series of experiments with benzene using stimulated Raman scattering techniques.
Samples were characterized by Raman scattering spectroscopy and far infrared cyclotron resonance absorption measurements.
Raman spectra and fluorescence spectra are generated from the captured Raman scattering and fluorescence.
Raman scattering and transport experiments indicate a repulsion between spin up and spin down Landau levels.
The method may be used for detecting a target analyte using surface enhanced Raman scattering.
Vibrational Raman scattering is discussed below.
Additional aspects of the method can include detecting a target analyte using surface enhanced Raman scattering.
Suitable means to detect Raman scattering include a Raman spectrometer.
Surface plasmon polaritons enhanced Raman scattering.
Raman scattering IR spectra and absorption IR spectra are complementary spectroscopic methods.
Detection Several methods are available for detecting Raman scattering.
A combination of Raman scattering and LIBS emission detection is disclosed by Beckstead et al.
Surface enhanced Raman scattering.
Raman scattering intensity is proportional to λ-4 where λ is the laser wavelength.
Near-infrared dyes as surface enhanced raman scattering reporters.
Giant Raman scattering.
Disordered matter studied by x-ray Raman scattering.
Raman scattering may be used to detect unlabelled and non-fluorescent molecules.
The dipeptide l-alanyl ¿ l-alanine crystal was studied through polarized raman scattering submitted to homogeneous deformations.
As a solution for low raman scattering sensibility, emerge the coherent anti-stokes raman scattering microscopy cars.
The signal emitted can be a fluorescence, phosphorescence or Raman scattering signal.
As a result, most of the Raman scattering is in the backward direction.
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Examples of using Raman
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Indian diya and raman college student
Raman spectra of the tribromochalcogen salts were obtained
They have a machine that does raman spectroscopy
Examples of using Scattering
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Disruption and scattering of the confining material
This could cause toner leakage or scattering
Scattering the shot far and wide
