Greisen-Zatsepin-Kuzmin limit
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The Greisen-Zatsepin-Kuzmin limit (GZK limit) is a theoretical upper limit on the energy of cosmic rays from distant sources.
This limit was computed in 1966 by Kenneth Greisen, Vadim Kuzmin and Georgiy Zatsepin, based on interactions predicted between the cosmic ray and the photons of the cosmic microwave background radiation. They predicted that cosmic rays with energies over the threshold energy of 5×1019 eV would interact with cosmic microwave background photons to produce pions. This would continue until their energy fell below the pion production threshold. Therefore, extragalactic cosmic rays with distances more than 50 Mpc(megaparsec) from the Earth with energies greater than this threshold energy should never be observed on Earth. But possible sources of that high energy particles are not observed in this region.
A number of observations have been made by the AGASA experiment that appear to show cosmic rays from distant sources with energies above this limit (whimsically dubbed Oh-My-God particles). The observed existence of these particles is the so-called GZK paradox or cosmic ray paradox.
These observations appear to contradict the predictions of special relativity and particle physics as they are presently understood. However, there are a number of possible explanations for these observations that may resolve this inconsistency. Firstly, the observations could be due to an instrument error or an incorrect interpretation of the experiment. Secondly, the cosmic rays could have local sources (although it is unclear what these sources could be). The Cannon Ball Model Of Cosmic Rays maybe could explain the existence of local sources (super novae in our galaxy).
Another suggestion involves ultra-high energy weakly interacting particles (for instance neutrinos) which might be created at great distances and later react locally to give rise to the particles observed.
A number of exotic theories have been advanced to explain these observations, of which the most notable is the theory of doubly-special relativity.
As of 2003, a number of cosmic ray experiments such as GLAST and the Pierre Auger Observatory are now planned which are intended to confirm or deny the correctness of the earlier observations.
See also
External links
- [Rutgers University experimental high energy physics HIRES research page]
- [Cosmic-ray.org]
- [Physicsweb article]
- [History of Cosmic Ray Research]
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