Index mechanics in anti-antifreeze

X-Message-Number: 20812
From: 
Date: Wed, 8 Jan 2003 08:48:56 EST
Subject: Index mechanics in anti-antifreeze

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Anti-freeze products are toxic and must be romoved when a body is thawed. 
Even if only the body matrix is used and most cells are new stem cells, the 
anti-freeze must be discarded. The classical mantra is about: nanotech will 
takes care of that. This is no more serious than sect biotech. No machine, 
whatever its small scale can target and then remove some 10 power 25 
molecules.

One solution would be to use a technology similar to the one exploited for 
carbon monoxide poisonning: Take the blood outside the body, pass it between 
glass plates under a strong green light and return it to the general 
circulation.  Red haemoglobin is a strong absorber of green light, this one 
break the deathly carboxyheamoglobin, so CO molecules can be vented out.

Laser light can be used to put a given molecular species into a given excited 
state, so it can react in a defined way with another molecule or can be 
broken down. Because most of the anti-freeze can't be extracted by simple 
blood circulation, in-situ light break-down is a necessity. Unfortunately, a 
body saturated by a given molecule is by definition opaque to the radiation 
able to break it. So, light must be injected where it will be absorbed. This 
can be done with optical fibers, but each cubic centimeter of the body must 
have its fiber end. This is more than massive surgery and a big problem for 
later recovery. In the brain, optical fibers will destroy many cells. A even 
bigger problem than in the rest of the body where cells are renewed. The head 
bones are another problem for thousands of tiny fibers.

The ideal solution would produce light in-situ, but in all cases the primary 
energy source is an high energy radiation with strong ionising effects. Not 
an option here.

It seems current technology has no solution, so something new must be called 
for. Going to high science, there is an interesting possibility: Large 
non-abelian fields. Such fields have an extraordinary property: they have no 
rest frame, whatever the inertial frame choosen, they are always accelerated. 
That is to say, they continuously decay  by radiation production. If the peak 
frequency could be controled it would be very interesting.

The main problem with such fields is that the simplest one, SU(2) extend no 
more than 1/100 000 th of  the classical radius of an electron. Using very 
high principal quantum number n, it could be possible to have a larger 
domain. The idea is as follow: produce some Z particles in high gravitational 
field, shoot them up outside the gravitational field so that they look time 
expanded for a local observer. Because the low gravitational field domain 
looks space expanded for the high field domain, the n number seen in free 
space is larger than the one at the particle creation point. MECO ( 
Magnetospheric Eternally Collapsing Objects) are near black hole with the 
gravitational power to do that. Unfortunately, there is no MECO at hand.

Another  solution is to use quotien fields. The classical electro-weak 
unification theory uses the gauge symetry: U(1)xSU(2), here the field would 
be: SU(2)/U(1). That bis a double field, it rests on the ambiguity, in 3 
levels connection forms, between level 1 and 2. The form with levels 0,1,2,3 
can holds SU(2) and the levels 0,2,1,3 U(1).SU(2) has 2 perpendicular axis, 
ordinary electromagnetism is tilted some 22 degrees from the first axis, this 
is called the Weinberg's angle. The quotient field, depending on the strenght 
of U(1), open the way to control that angle. That will move the rest mass of 
the Z component and so the radius of the interaction. With nearly zero rest 
mass, the Z domain swells to infinity, we have a non-abelian macroscopic 
field. The decay radiative light from that field would be produced 
everywhere, the weak nuclear force is not blocked by ordinary matter, even if 
that version would have more coupling.

Some NASA works have shown the healing capacity of infrared light, it seems 
that radiation can power directly the mitochondrial membrane without the 
chemical Krebs cycle. Thawed cells would be in dire need for energy when 
their ATP producing system would be largely out of order. IR direct power is 
a solution. Unfortunately, it don't travel far in the body (precisely because 
it is taken up as a useful ressource). This is the same problem as with 
breaking the anti-freeze: Optical fibers are invasive and not up to the job. 
Only q-fields seems a possibility.

Yvan Bozzonetti.

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