| Revision as of 15:41, 12 June 2006 editPcarbonn (talk | contribs)Extended confirmed users4,444 edits rvt to remove POV statement← Previous edit | Revision as of 15:23, 1 August 2006 edit undo67.78.133.90 (talk) the fact that most cold-fusion "discoveries" are fraudulent is, wow, a fact. Therefore, not POV.Next edit → | ||
| Line 1: | Line 1: | ||
| '''Muon-catalyzed fusion''' is a process allowing ] to take place at ]. Although it can be produced reliably with the right equipment and has been much studied, it is believed that the poor energy balance will prevent it from ever becoming a practical power source. It used to be known as ]; however, this term is now avoided as it can create confusion with other |
'''Muon-catalyzed fusion''' is a process allowing ] to take place at ]. Although it can be produced reliably with the right equipment and has been much studied, it is believed that the poor energy balance will prevent it from ever becoming a practical power source. It used to be known as ]; however, this term is now avoided as it can create confusion with other typically fraudulent or purely-theory forms of room-temperature fusion. | ||
| In muon-catalyzed fusion, ] and ] nuclei form atoms with ]s, which are essentially heavy ]s. The muons orbit very close to the nuclei, shielding the positive charge of the nuclei and allowing them to move close enough to fuse. The muons survive the fusion reactions and remain available to ] further fusions. ] and F. C. Frank predicted this effect of muon-catalyzed fusion on theoretical grounds before ]. | In muon-catalyzed fusion, ] and ] nuclei form atoms with ]s, which are essentially heavy ]s. The muons orbit very close to the nuclei, shielding the positive charge of the nuclei and allowing them to move close enough to fuse. The muons survive the fusion reactions and remain available to ] further fusions. ] and F. C. Frank predicted this effect of muon-catalyzed fusion on theoretical grounds before ]. | ||
Revision as of 15:23, 1 August 2006
Muon-catalyzed fusion is a process allowing nuclear fusion to take place at room temperature. Although it can be produced reliably with the right equipment and has been much studied, it is believed that the poor energy balance will prevent it from ever becoming a practical power source. It used to be known as cold fusion; however, this term is now avoided as it can create confusion with other typically fraudulent or purely-theory forms of room-temperature fusion.
In muon-catalyzed fusion, deuterium and tritium nuclei form atoms with muons, which are essentially heavy electrons. The muons orbit very close to the nuclei, shielding the positive charge of the nuclei and allowing them to move close enough to fuse. The muons survive the fusion reactions and remain available to catalyze further fusions. Andrei Sakharov and F. C. Frank predicted this effect of muon-catalyzed fusion on theoretical grounds before 1950.
One practical problem with the process is that muons are unstable, decaying in 2.2 microseconds while at rest. Hence there needs to be some cheap means of producing muons, and the muons must be arranged to catalyze as many reactions as possible before decaying. Another problem, recognized by J.D. Jackson in his seminal 1957 paper, is the approximately 1% probability of the muon "sticking" to the alpha particle (a helium-4 nucleus) that results from the deuterium-tritium fusion, removing it from the catalysis process. Even if muons were absolutely stable, each could catalyze, on average, only about 100 fusions before sticking—about one fifth the number needed to produce more energy than is consumed to produce the muons. Clearly, muon-catalyzed fusion is impractical without an efficient method of producing muons.
References
- J.D. Jackson, "Catalysis of Nuclear Reactions between Hydrogen Isotopes by μ-Mesons," Physical Review, Vol. 106, No. 2, April 15, 1957.
- Rafelski, Johann and Steven E. Jones (1987). "Cold Nuclear Fusion". Scientific American, v. 257 #1, pp. 84–89.
See also
- Antimatter catalyzed nuclear pulse propulsion
- Nuclear fusion
- Steven E. Jones (coined the term 'cold fusion')
| Fusion power, processes and devices | |||||||||||||||||||||||||||||||||||||||||||||||
|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|---|
| Core topics |
| ||||||||||||||||||||||||||||||||||||||||||||||
| Processes, methods | |||||||||||||||||||||||||||||||||||||||||||||||
| Devices, experiments |
| ||||||||||||||||||||||||||||||||||||||||||||||
