Wavelength of scattered photon and angle of scattering in the Compton scattering

In summary, the Compton scattering phenomenon occurs when photons are scattered by charged particles, resulting in a change in the wavelength of the scattered photon. The wavelength is determined by the initial energy of the incident photon and the angle at which it is scattered. The greater the angle of scattering, the larger the change in wavelength will be. This relationship is described by the Compton scattering equation, which is used in scientific research to study particle properties and in medical imaging techniques.
  • #1
Ezequiel
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Homework Statement



In the Compton scattering, a photon of wavelength λ collides with an electron at rest, and a new photon of wavelength λ' emerges at an angle θ. Find λ' y θ.

Energy of incident photon Ei = 1 MeV
Energy of scattered electron Ee = 0.32 MeV

Homework Equations



E = [itex]\frac{hc}{λ}[/itex]

λ' - λ = λc(1 - cosθ)

c being Compton wavelength)

The Attempt at a Solution



λ' = [itex]\frac{hc}{E_i - E_e}[/itex] = [itex]\frac{1240 eV · nm}{0.68 MeV}[/itex] = 1.82 pm

θ = cos-1[itex]\left(\frac{λ - λ'}{λ_c} + 1\right)[/itex] = 40.45°

Am I right?
 
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  • #2
You are right.
 

1. What is the Compton scattering phenomenon?

The Compton scattering phenomenon refers to the scattering of photons by charged particles, typically electrons, resulting in a change in the wavelength of the scattered photon.

2. What determines the wavelength of a scattered photon in Compton scattering?

The wavelength of a scattered photon in Compton scattering is determined by the initial energy of the incident photon and the angle at which it is scattered.

3. How does the angle of scattering affect the wavelength of a scattered photon in Compton scattering?

The angle of scattering directly affects the change in wavelength of the scattered photon in Compton scattering. The greater the angle of scattering, the larger the change in wavelength will be.

4. What is the relationship between the wavelength of a scattered photon and the angle of scattering in Compton scattering?

The relationship between the wavelength of a scattered photon and the angle of scattering in Compton scattering is described by the Compton scattering equation: Δλ = h/mc (1-cosθ), where Δλ is the change in wavelength, h is Planck's constant, m is the mass of the electron, c is the speed of light, and θ is the angle of scattering.

5. How is the Compton scattering phenomenon used in scientific research?

The Compton scattering phenomenon is used in scientific research to study the properties of particles and to determine the energy levels of atomic and subatomic particles. It is also used in medical imaging techniques, such as Compton scattering tomography, to create detailed images of the inside of the body.

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