Number of Photons and wavelength?

In summary, the number of photons emitted by a charged particle in Cerenkov radiation is inversely proportional to the wavelength, with shorter wavelengths having a higher relative intensity per unit frequency. Further explanation and mathematical reasoning can be found in the Wikipedia article and in Jackson's work.
  • #1
vhbelvadi
67
1
I read recently that the "number of photons emitted by a charged particle is inversely proportional to wavelength" with regard to Cerenkov radiations. (The wavelength refers to the radiation which is of comparatively shorter wavelength, towards the blue-end.)

I was looking for a more detailed explanation for this. A little (or a lot of) maths would help too!

Thank you.
 
Physics news on Phys.org
  • #3
@jedishrfu - I did that already! Wikipedia states,

"Around the visible spectrum, the relative intensity per unit frequency is approximately proportional to the frequency. That is, higher frequencies (shorter wavelengths) are more intense in Cherenkov radiation."

I was looking for an explanation on how (mathematically) 'relative intensity per unit frequency' and frequency are related. I know they're proportional, but I'd like a mathematical explanation/reasoning for it.
 
  • #4
There's a (rather mathematical) derivation of the Cherenkov frequency spectrum in Jackson.
 

1. What is the relationship between the number of photons and wavelength?

The number of photons and wavelength are inversely proportional to each other. This means that as the wavelength decreases, the number of photons increases, and vice versa. This relationship is described by the equation E = hc/λ, where E is the energy of a photon, h is Planck's constant, c is the speed of light, and λ is the wavelength.

2. How does the number of photons affect the intensity of light?

The number of photons is directly related to the intensity of light. Intensity is defined as the amount of energy per unit area per unit time. This means that as the number of photons increases, the intensity of light also increases. In other words, the more photons there are, the brighter the light will appear.

3. Can the number of photons be measured?

Yes, the number of photons can be measured using a device called a photometer. This device measures the intensity of light and can calculate the number of photons based on the energy of each individual photon and the total energy of the light source.

4. How does the number of photons affect the color of light?

The number of photons does not directly affect the color of light. Color is determined by the wavelength of light, not the number of photons. However, as mentioned earlier, the number of photons and wavelength are inversely proportional, so a change in the number of photons can result in a change in the color of light.

5. How is the number of photons related to the photoelectric effect?

The photoelectric effect is the emission of electrons from a material when light of a certain frequency or higher is shone on it. The number of photons is directly related to the energy of the light, and the energy of the light is what causes the electrons to be emitted. Therefore, the number of photons is indirectly related to the photoelectric effect.

Similar threads

B Virtual photons as force carriers
    • Quantum Physics
Replies
29
Views
2K
I A qualitative question about Blackbody Radiation
    • Quantum Physics
Replies
3
Views
991
I How Big Is a Photon? - Exploring Interference Experiments
    • Quantum Physics
Replies
14
Views
1K
I Do atoms recoil when emitting a photon?
    • Quantum Physics
2
Replies
38
Views
3K
I Electromagnetic radiation, photons, quantized energy levels
    • Quantum Physics
Replies
1
Views
379
I Why is Cherenkov radiation blue? And what about refractive index?
    • Classical Physics
Replies
3
Views
800
B How to determine the wavefunction of photons?
    • Quantum Physics
Replies
4
Views
1K
A In light of new evidence, what might be behind the Casimir Effect?
    • Quantum Physics
2
Replies
46
Views
2K
Understanding Photon Absorption in Radio Wavelengths: 3 Key Questions Explored
    • Quantum Physics
2
Replies
43
Views
3K
I Photon number state and Doppler shift
    • Quantum Physics
Replies
4
Views
1K

Hot Threads

Recent Insights

Back
Top