What is the Raman Effect?
Answer
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Hint: In order to answer this question, to know the explanation of Raman Effect, we should go through the whole concept and the principle of the Raman’s effect. And we will discuss much more about it.
Complete answer:
The Raman Effect is the process of scattering of light particles by molecules of a medium. A difference in the wavelength of light as it reaches the medium causes scattering. Light is made up of photons, which have an energy that is proportional to the frequency at which they pass.
As particles avoid a light bar, the Raman effect occurs, causing a shift in light frequency. When a light emission passes through a residue-free, simple example of a material compound, a small portion of the light emerges in directions other than those of the episode (approaching) bar. The vast majority of this scattered light has not been altered in frequency.
It is the inelastic scattering of photons by matter, which involves both an energy exchange and a change in the direction of light. This effect usually involves a molecule gaining vibrational energy when incident photons from a visible laser are transferred to lower energy.
Note: Raman effect is the scattering of light by light by the molecules of a material medium. i.e. of the scattered light is shifted in frequency. It is the best and simple example of the Raman’s Effect, that we discussed now.
Complete answer:
The Raman Effect is the process of scattering of light particles by molecules of a medium. A difference in the wavelength of light as it reaches the medium causes scattering. Light is made up of photons, which have an energy that is proportional to the frequency at which they pass.
As particles avoid a light bar, the Raman effect occurs, causing a shift in light frequency. When a light emission passes through a residue-free, simple example of a material compound, a small portion of the light emerges in directions other than those of the episode (approaching) bar. The vast majority of this scattered light has not been altered in frequency.
It is the inelastic scattering of photons by matter, which involves both an energy exchange and a change in the direction of light. This effect usually involves a molecule gaining vibrational energy when incident photons from a visible laser are transferred to lower energy.
Note: Raman effect is the scattering of light by light by the molecules of a material medium. i.e. of the scattered light is shifted in frequency. It is the best and simple example of the Raman’s Effect, that we discussed now.
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