Faster than Light with X-Ray Reflection: Is it Possible?

manesh
Messages
18
Reaction score
0
Faster than c!

hi
I read that the refractive index(n) for X-rays in meterials are less than 1(very little less than 1). I got confused ..I am using X-ray reflection at the moment. But I am not convinced by the fact that n<1 means faster than c(velocity of light in vacuum or in air)!
hope somebody can explain the contradiction :wink:
cheers
Manesh
 
Physics news on Phys.org
I looked this up over the net and ka-boom! the refractive index of x-rays is slightly less than 1. So could this mean that when x-rays undergo refraction they travel faster than 3x10^8?

What material is this by the way that refractive index is slightly less than one?

Oh and I just thought that I would bring this up, c can also be slowed to 38mph when passed through the 6th state of matter - bose einstein condensates.
 
EIRE2003 said:
I looked this up over the net and ka-boom! the refractive index of x-rays is slightly less than 1. So could this mean that when x-rays undergo refraction they travel faster than 3x10^8?

What material is this by the way that refractive index is slightly less than one?

Oh and I just thought that I would bring this up, c can also be slowed to 38mph when passed through the 6th state of matter - bose einstein condensates.

The index of refraction is related to the phase velocity which, in some sense, is not a physically meaningful concept (it would require a wave of definite wavelength, hence of infinite extent). What matters for the propagation of wavepackets is the group velocity, which is probably less than c (I say probably because there are exceptions to that statement too, in regions of anomaloous dispersion, in which case one must introduce a so-called "signal velocity" )

Pat
 
https://www.physicsforums.com/showthread.php?t=52570
 

Thread 'Toponium Discovered'

Toponium is a hadron which is the bound state of a valance top quark and a valance antitop quark. Oversimplified presentations often state that top quarks don't form hadrons, because they decay to bottom quarks extremely rapidly after they are created, leaving no time to form a hadron. And, the vast majority of the time, this is true. But, the lifetime of a top quark is only an average lifetime. Sometimes it decays faster and sometimes it decays slower. In the highly improbable case that...
View full post »

Thread 'Dirac-Delta from Normalization of Continuous Eigenfunctions'

I'm following this paper by Kitaev on SL(2,R) representations and I'm having a problem in the normalization of the continuous eigenfunctions (eqs. (67)-(70)), which satisfy \langle f_s | f_{s'} \rangle = \int_{0}^{1} \frac{2}{(1-u)^2} f_s(u)^* f_{s'}(u) \, du. \tag{67} The singular contribution of the integral arises at the endpoint u=1 of the integral, and in the limit u \to 1, the function f_s(u) takes on the form f_s(u) \approx a_s (1-u)^{1/2 + i s} + a_s^* (1-u)^{1/2 - i s}. \tag{70}...
View full post »

Similar threads

I What travels faster: visible light in water or X-rays in liquid mercury?
Replies
6
Views
2K
I Why Are Reflected Rays Often Ignored in Lens Studies?
Replies
5
Views
2K
I Light clock running faster than light?
Replies
4
Views
1K
B Is all EM radiation light?
Replies
35
Views
3K
I Why do we still say “the speed of light” instead of “c”?
Replies
12
Views
2K
Optical path difference between two reflected rays
Replies
4
Views
656
Is there really nothing faster than light?
Replies
40
Views
4K
X-ray production - maximum pressure
Replies
4
Views
2K
I Outer layer refractive index - total internal refection on waveguide
Replies
2
Views
2K
The maximum intensity for light transmitted through a thin film
Replies
2
Views
3K

Hot Threads

Recent Insights

Back
Top