Why do x rays travel faster than light in some states of matter

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X-rays can exhibit a phase velocity greater than the speed of light in vacuum due to certain materials having a refractive index less than one in the x-ray region. This phenomenon occurs near absorption resonances, where the dielectric constant behaves anomalously. While phase velocity can exceed c, it does not violate relativity, as it is the group velocity that determines signal propagation speed. The discussion references a Wikipedia article that clarifies these concepts but notes that x-rays are not specifically mentioned. Ultimately, the distinction between phase speed and group speed is crucial in understanding this behavior.
Gobil
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hi All,

why is this? some matter has a refractive index of slightly less than one for light in the x ray region. This implies a phase velocity faster than c, right? could someone explain what is actually happening here?

THANKS!
 
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The dielectric constant increases when approaching a resonance (normal dispersion), decreases rapidly in the resonance region (anomalous dispersion) and increases again after the resonance. In the optical region and below, the relative dielectric function is mostly >1, as the electonic resonances are somewhere in the UV. Above the UV all resonances are to the left and the dielectric function approaches 1 from below.
Phase velocity may take on (almost) any value you like, as signal velocity depends on group velocity, not on phase velocity.
 
but normally the refractive index is described as c/v, where v is the velocity of the light in the medium with index n. so what is traveling faster than c in the case of xrays?
 
Can you point us at the originla source for what you write? Otherwise we are trying to explain something we can only guess about.
 
Gobil said:
but normally the refractive index is described as c/v, where v is the velocity of the light in the medium with index n. so what is traveling faster than c in the case of xrays?

The phase speed v in the medium is in deed higher than the phase speed in vacuo c.
 
And x-rays don't appear in the Wiki article. What exactly is your question?
 
thanks Dr. Du,

does this mean the phase speed is greater than c in vacuo too, for some frequencies?

Vanadium 50,

From the posted wiki article:

"The number n is typically greater than one. However, at certain frequencies (e.g. near absorption resonances, and for X-rays), n will actually be smaller than one[7] (see also Cherenkov radiation). This does not contradict the theory of relativity, which holds that no information-carrying signal can ever propagate faster than c, because the phase speed is not the same as the group speed or the signal speed."
 

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