Yes, Raman effect or, more usually, Raman scattering, is indeed supported by the quantum theory of light. Raman scattering is the inelastic scattering of light (photons) off matter, and it is included in quantum theory. Most photons scatter elastically, and Rayleigh scattering explains this. But a tiny fraction of photons come away from a scattering event at the same energy as they entered it. Raman described this effect in liquids, and Landsberg and Mandelstam later described it in crystals.
One of the curiosities of quantum theory is that it has been modified over the years as new information has been presented. It was a good theory in its inception, and the basic tenants remain at its foundation. But as with any effective explanation of the way things work, it has been "expanded" to encompass the later discoveries that more clearly detailed and refined what it says. Why would it not have been?
C. V. Raman was awarded the Nobel Prize for his work on the scattering of light and for the discovery of the Raman effect.
Sir Chandrasekhara Venkata Raman (C.V. Raman) was the first Indian scientist to win Nobel Prize. he won it in 1990.
Several variations of Raman spectroscopy have been developed.· Surface Enhanced Raman Spectroscopy (SERS)· Resonance Raman spectroscopy· Surface-Enhanced Resonance Raman Spectroscopy (SERRS)· Angle Resolved Raman Spectroscopy· Hyper Raman· Spontaneous Raman Spectroscopy (SRS)· Optical Tweezers Raman Spectroscopy (OTRS)· Stimulated Raman Spectroscopy· Spatially Offset Raman Spectroscopy (SORS)· Coherent anti-Stokes Raman spectroscopy (CARS)· Raman optical activity (ROA)· Transmission Raman· Inverse Raman spectroscopy.· Tip-Enhanced Raman Spectroscopy (TERS)· Surface plasmon polaritons enhanced Raman scattering (SPPERS)
No, C.V. Raman's interest in science was inspired by his school teachers and his own curiosity. His parents supported his passion for science by providing him with resources and encouragement, but they did not directly influence his interest in the field.
Raman active molecules are those that exhibit a change in polarizability during the Raman spectroscopy process. This change results in the scattering of light at different wavelengths, providing information about the molecular structure and vibrations of the molecule. Raman spectroscopy is a powerful technique used for chemical analysis and identification.
C.V. Raman's most significant invention was the discovery of the Raman Effect in 1928, which demonstrated the scattering of light by matter and provided evidence for the quantum nature of light. This discovery led to Raman being awarded the Nobel Prize in Physics in 1930.
Raman Effect
The Raman effect was discovered by Indian physicist Sir C. V. Raman in 1928. Raman was awarded the Nobel Prize in Physics in 1930 for this discovery.
The Nobel Prize in Physics in 1930 was awarded to Chandrasekhara Venkata Raman for his work on the scattering of light and the discovery of the Raman effect, which demonstrated the quantum nature of light.
sir cv raman invented raman effect raman effect is a change in the wave length of light that occurs when a light beam is deflected by molecules. Raman effect states that when monochromatic light is passed through a substance it attains some additional frequencies other than its frequency .
yes
Raman effect is change in the wavelength of light that occurs when a light beam is deflected by molecules.
C.V.Raman
The Raman effect, also known as Raman scattering, is the inelastic scattering of a photon. It was discovered by C. V. Raman and K. S. Kishnan in liquids. G. Landsberg and L. I. Mandelstam discovered it in crystals.
C. V. Raman was awarded the Nobel Prize for his work on the scattering of light and for the discovery of the Raman effect.
1903-1909
C V Raman is best known for his invention of the Raman effect, which demonstrated the scattering of light by molecules. This discovery established the field of Raman spectroscopy, which is widely used in various scientific fields.