[Relativity FAQ] - [Copyright]
Original by Philip Gibbs 18-Feb-1997
A sonic boom is a shock wave which propagates from an aircraft or other object which is going faster than sound through the air (or other medium). In subsonic flight air is deflected smoothly around the wings. In supersonic flight this cannot happen because the effect of the aircraft wings pushing the air ahead cannot travel faster than sound. The result is a sudden pressure change or shock wave which propagates away from the aircraft in a cone at the speed of sound.
It is thought that objects cannot travel faster than c, the speed of light in vacuum (see Relativity FAQ article on FTL travel.). Furthermore there is no ether to act as a medium being pushed aside like the air is pushed by an aircraft. Therefore no light equivalent of the sonic boom can occur in vacuum.
In a medium such as water, the speed of light is considerably less than the speed of light in vacuum. In a medium with refractive index n the velocity of light is vlight = c/n. The refractive index is always greater than one so it is possible for a particle to travel through water (nwater = 1.3) or other media at a speed faster than the speed of light in that media. When a charged particle does so, it produces faint radiation. The light propagates away in a cone forward of the region where the interaction took place. The half angle of the cone a can easily be derived in terms of the velocity of the particle v by looking at where wave fronts emitted from the track of the particle constructively interfere.
cos(a) = vlight/v
This is analogous to the formula for the angle at which a sonic boom propagates.
The effect known as Cherenkov radiation was observed as a faint blue glow by Pavel Cherenkov in 1934 when he was asked to look at the effects of radioactivity in liquids. The explanation for the light was provided by Ilya Franc and Igor Tamm. It is possible to detect the Cherenkov radiation as it forms circles on a surface and can be used to measure the speed and direction the particle was travelling in. It is therefore a very useful means of studying the products of particle collisions and cosmic rays.
The blue glow in the water surrounding nuclear reactors is Cherenkov radiation. The water is there to stop neutrons but neutrons are uncharged and do not directly cause the radiation. It actually comes from beta particles (fast electrons) which are emitted by fission products. For most media blue light predominates over longer wavelengths of light because the number of quanta emitted as Cherenkov radiation in a wavelength interval dl at wavelength l over a path length L is given by,
dl (2 pi alpha) L sin2(a)/l2
alpha is the fine structure constant equal to about 1/137. Notice that the refractive index, and therefore the angle a also, changes with wavelength l as demonstrated when a prism produces a spectrum from white light. This suppresses the rate at small wavelengths in the ultraviolet and beyond.
Although Cherenkov radiation is indeed a light equivalent of the sonic boom, there are also some essential differences. The sonic shock wave is a non-linear effect of sound propagation whereas light wave propagation is always linear. The way the waves are generated is also quite different.