Rayleigh one-two photon, dipole approx

In summary, the Rayleigh one-two photon process is an optical process involving the absorption and emission of two photons with different energies through virtual excited states. It differs from other optical processes and is calculated using the dipole approximation. The rate of this process is influenced by various factors and it is commonly used in scientific research in fields such as spectroscopy and quantum optics. It also has practical applications in technologies such as quantum computers and secure communication systems.
  • #1
evidenso
37
0
Hello
Im having 2 questions
I'm investigating NIR light propagation in tissue such as the skin and my question is:

In dipole aprox: Absorption, emission and normal Raman scattering is one-photon processes. But what is Rayleigh scattering?

When light hit a small molecule the dipole approximation is good. But what if the single molecule
is large like a protein. What happens then to the absorption/emission/raman transitionprobability (fermis golden rule, Kramer-Heisenberg disp relation)?
 
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  • #2
no one ? ;)
 
  • #3


Hello,

Thank you for your questions. I am happy to provide some information about Rayleigh scattering and its relationship to the dipole approximation.

Rayleigh scattering is a phenomenon in which light is scattered by particles or molecules that are much smaller than the wavelength of the incident light. This scattering occurs in all directions and is responsible for the blue color of the sky. In the dipole approximation, the scattering is considered to be elastic and the scattered photons have the same energy as the incident photons.

In terms of absorption, emission, and Raman scattering, these processes are considered to be one-photon processes in the dipole approximation. This means that a single photon is involved in the transition between energy levels in the molecule. However, in Rayleigh scattering, no energy level transitions occur and the scattered photons have the same energy as the incident photons. Therefore, Rayleigh scattering is not considered to be a one-photon process in the dipole approximation.

When considering larger molecules, such as proteins, the dipole approximation may not be as accurate because the molecule's size and shape can affect its electronic structure and the distribution of charge. In this case, the absorption, emission, and Raman scattering processes may involve multiple photons and cannot be accurately described by Fermi's golden rule or the Kramer-Heisenberg dispersion relation. More complex theoretical models, such as the coupled dipole approximation, may be needed to accurately describe these processes in larger molecules.

I hope this helps answer your questions. If you have any further inquiries, please feel free to ask. Thank you for your interest in this topic.
 

1. What is the Rayleigh one-two photon process?

The Rayleigh one-two photon process is a type of optical process in which a single photon is absorbed by an atom or molecule, followed by the emission of two photons with lower energy levels. This process occurs due to the interaction between the electric dipole moment of the atom/molecule and the electric field of the photons.

2. How does the Rayleigh one-two photon process differ from other optical processes?

The Rayleigh one-two photon process is different from other optical processes because it involves the absorption and emission of two photons with different energies, rather than just one. It also occurs through virtual excited states, rather than the actual excited states of the atom or molecule.

3. What is the dipole approximation in the context of the Rayleigh one-two photon process?

The dipole approximation is a simplification used in the calculation of the Rayleigh one-two photon process. It assumes that the electric dipole moment of the atom or molecule is much smaller than the wavelength of the photons, allowing for a simpler calculation of the interaction between them.

4. What factors influence the rate of the Rayleigh one-two photon process?

The rate of the Rayleigh one-two photon process is influenced by several factors, including the intensity and frequency of the incident photons, the strength of the electric dipole moment of the atom or molecule, and the energy difference between the initial and final energy levels.

5. How is the Rayleigh one-two photon process used in scientific research?

The Rayleigh one-two photon process is commonly used in various fields of research, including spectroscopy, quantum optics, and quantum information processing. It is also used in the development of new technologies such as quantum computers and secure communication systems.

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