Difference between revisions of "Breaking the Dirac Code"
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In describing the fermionic state, the Dirac equation is the most fundamental in physics. The full power of the equation, however, seems to be obscured by a complicated mathematical apparatus which prevents us gaining a more direct knowledge of the fermionic state. To get beyond this hurdle means breaking the equation?s mathematical code. The reward for doing this is a new set of insights into particle physics and quantum mechanics. | In describing the fermionic state, the Dirac equation is the most fundamental in physics. The full power of the equation, however, seems to be obscured by a complicated mathematical apparatus which prevents us gaining a more direct knowledge of the fermionic state. To get beyond this hurdle means breaking the equation?s mathematical code. The reward for doing this is a new set of insights into particle physics and quantum mechanics. | ||
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[[Category:Particle Physics]] | [[Category:Particle Physics]] |
Revision as of 10:06, 1 January 2017
Scientific Paper | |
---|---|
Title | Breaking the Dirac Code |
Author(s) | Peter Rowlands |
Keywords | Dirac |
Published | 2006 |
Journal | None |
No. of pages | 19 |
Abstract
In describing the fermionic state, the Dirac equation is the most fundamental in physics. The full power of the equation, however, seems to be obscured by a complicated mathematical apparatus which prevents us gaining a more direct knowledge of the fermionic state. To get beyond this hurdle means breaking the equation?s mathematical code. The reward for doing this is a new set of insights into particle physics and quantum mechanics.