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The first kind of muon–catalyzed fusion to be observed experimentally, by L.W. Alvarez et al., [6] was protium (H or 1 H 1) and deuterium (D or 1 H 2) muon-catalyzed fusion. The fusion rate for p–d (or pd) muon-catalyzed fusion has been estimated to be about a million times slower than the fusion rate for d–t muon-catalyzed fusion. [7 ...
In muon-catalyzed fusion there are more fusions because the presence of the muon causes deuterium nuclei to be 207 times closer than in ordinary deuterium gas. [138] But deuterium nuclei inside a palladium lattice are further apart than in deuterium gas, and there should be fewer fusion reactions, not more. [133]
The law of water balance states that the inflows to any water system or area is equal to its outflows plus change in storage during a time interval. [ 2 ] [ 3 ] In hydrology , a water balance equation can be used to describe the flow of water in and out of a system.
Muon-catalyzed fusion is a technical application of muonic atoms. Other muonic atoms can be formed when negative muons interact with ordinary matter. [4] The muon in muonic atoms can either decay or get captured by a proton. Muon capture is very important in heavier muonic atoms, but shortens the muon's lifetime from 2.2 μs to only 0.08 μs. [4]
Muon decay almost always produces at least three particles, which must include an electron of the same charge as the muon and two types of neutrinos. Like all elementary particles, the muon has a corresponding antiparticle of opposite charge (+1 e) but equal mass and spin: the antimuon (also called a positive muon). Muons are denoted by μ −
Penning fusion (PFX, LANL) Plasma jets (HyperV, Chantilly) Magnetized target fusion with mechanical compression (General Fusion, Burnaby) Field-reversed colliding beams (Tri-Alpha) Muon-catalyzed fusion (Berkeley, Alvarez) Dense Plasma Focus (Focus fusion, Lawrenceville Plasma Physics, Lerner) Rotating lithium wall (RWE, Maryland)
Sir Frederick Charles Frank (6 March 1911 – 5 April 1998) was a British theoretical physicist. [1] He is best known for his work on crystal dislocations, including (with Thornton Read) the idea of the Frank–Read source of dislocations.
Articles dealing specifically with using this process to produce useful power are contained in the subcategory Fusion power. Articles about nuclear processes that are speculative or poorly understood (like cold fusion ), or whose potential for power production is remote (like muon-catalyzed fusion ) are kept in the main category.