Morbius said:
Only in the case of the rare Type 1a supernova is there a runaway fusion
reaction. [ You need a binary star system for a Type 1a. ]
The usual Type II supernova is NOT a runaway fusion process - it a
runaway GRAVITY process!
You get the Type II supernova when the fusion reactions have STOPPED.
You can only get energy from fusion if you are below Iron on the periodic
table. Iron is the most stable element. If you can fuse elements lighter
than Iron; or fission elements heavier than Iron - you release energy.
Iron is the ultimate nuclear "ash".
When a star has burned all its fuel to Iron - the fusion reactions stop.
Without the heat produced by fusion, the star can not resist its own
gravity which collapses the star.
The most common Type II supernovae are NOT caused by fusion, - they
are caused by GRAVITY!
Look under the heading, "What Causes of Star to Blow Up", in the web
page from Goddard to find, "Gravity gives the supernova its energy."
Dr. Gregory Greenman
Physicist
Below is some extracts from:
http://nuclearweaponarchive.org/Nwfaq/Nfaq4-3.html
There are NEW ways of dealing with certain fusion 'imploding' yeilds:
4.4.5 Fusion Stage Nuclear Physics and Design
4.4.5.1 Fusionable Isotopes
The important thermonuclear reactions for weapons are given below:
1. D + T -> He-4 + n + 17.588 MeV (n kinetic energy is 14.070 MeV)
2. D + D -> He-3 + n + 3.2689 MeV (n kinetic energy is 2.4497 MeV)
3. D + D -> T + p + 4.0327 MeV
4. He-3 + D -> He-4 + p + 18.353 MeV
The first fuel ever considered for a thermonuclear weapon was pure deuterium (reactions 2 and 3, which are equally likely). This is primarily because deuterium is a relatively easy fuel to burn (compared to most other candidates), is comparatively abundant in nature, and is cheap to produce. In fact, no other fuel has this same combination of desirable properties.
Only one other fusion fuel is easier to ignite - a mixture of deuterium and tritium (reaction 1). At moderate thermonuclear temperatures, the T-D reaction is 100 times faster than D-D combustion. Unfortunately, tritium does not occur in nature in useful amounts, and is very costly to manufacture.
end of extract.
current understanding of Parametric Downconversion, with high yeild Bose Einstien Condensate's, points to a Quark-Gluon type Repulsive Reactant device, as being real in the very near future.
I have done some back of the 'Born' envelope calculations, and I see the prospect of a 'cosmic-devise', which is not like the Fission Reactions you clearly point to?
Lets give an example, its well known that BEC collapse, produces particle jets, the particle yield is amplified according to the 'size' of the BEC. Now if we use the analogy of the Campus Core/pile used in the Manhatten Project, the 'atomic pile' is similar to the single BEC?
I have to disappear for a awhile...
Ok..lets continue, the NASA site for some simplistic overview:
http://imagine.gsfc.nasa.gov/docs/science/know_l2/supernovae.html
clearly states:What Causes a Star to Blow Up?
Gravity gives the supernova its energy. For Type II supernovae, mass flows into the core by the continued making of iron from nuclear fusion. Once the core has gained so much mass that it cannot withstand its own weight, the core implodes. This implosion can usually be brought to a halt by neutrons, the only things in nature that can stop such a gravitational collapse. Even neutrons sometimes fail depending on the mass of the star's core. When the collapse is abruptly stopped by the neutrons, matter bounces off the hard iron core, thus turning the implosion into an explosion: ka-BOOM!
For Type Ia supernova, the energy comes from the run-away fusion of carbon and oxygen in the core of the white dwarf.
butt..according to R LAUGHLIN:http://large.stanford.edu/rbl/articles/p01sep00.htm
the gravity according to 'nasa' can be mimicked by :http://edu.ioffe.ru/register/?doc=galperin/l14pdf4.tex
in fact one reason that Quantum Gravity is puzzling, is because the Gravitational Effects are replaced by Electro-Magnetic 'field' effects down on quantum scales, the strong-force IS gravitational in quantum 2-d scenarios.
Thus, if one creates a 'metallic-like-pile':
http://arxiv.org/abs/cond-mat/0305697
one can use this to implode in a repulsive action, reproducing(actually increasing the strong-coupling-force, to instigate a 'runway' implosion, with the emmision products being scattered from the edge, a "Bose-nova"...mimicking a Supernova..??
Question:Are Stars Liquids..Solids..Gas or Plasma?
