TUTORIAL NOTE 17
Welcome to the Second 'Semester' of Ten Tutorial Notes, which
teach the mathematical basis of Aether Science theory.
PARTICLES GALORE: HOW THEY ARE CREATED
© Harold Aspden, 1999
I deferred the preparation of this Tutorial No. 17 until last by
moving ahead to complete Tutorials No. 18, 19 and 20. My plan, as stated at
the end of Tutorial No. 16, was to go into the details of how a myriad of
fundamental particles are created based on principles already introduced
elsewhere in these web pages. The essential key is reliance on a combination
of conservation principles, including especially the notion that the actual
volume of space occupied by the electric charges belonging to a transmuting
system of fundamental particles is conserved. I have, however, decided to
abbreviate this discourse and leave you, the reader, to glean that information
from my published work elsewhere, notably in two papers included in my book
Aether Science Papers, of periodical record also in university
libraries which stock the Hadronic Journal [1986e] and [1986j]. Here,
in Tutorial No. 17, I will only pursue the theme in a summary
way.
Once it is understood that the vacuum medium is alive with
activity as Nature tries to deploy its energy into the creation of a myriad of
particle forms amongst which the proton and the electrons are the survivors,
there are few secrets left that warrant our attention. To understand the
creation of the proton is to understand its meson source, rooted as it is in the
muon activity of the aether itself and with that comes the system of dynamic
balance, the elusive background of gravitons which mediate in setting up the
force of gravity. All this has already been discussed in our Tutorials and
elsewhere in these web pages and the fundamental particle spectrum that we
explore by our research into high energy particle physics is simply a product of
the merger of gravitons, muons, protons and the like.
Here I will just
remind you that J J Thomson's formula 2e2/3a is governing in defining
the energy of a particle of charge e encapsulated in a sphere of radius a. The
volume of space involved is proportional to a3 and the energy
involved is proportional to 1/a, given that e is a universal unit of electric
charge. So if you take a pair of particles of positive and negative charge
polarity and say that they transmute into two pairs of particles (radii b and c)
with overall charge volume conserved then energy is released and we have the
condition that:
a3 = b3 + c3 ...... (1)
On
the other hand, if the transmutation is one involving constant energy, rather
than conservation of charge volume, then we can have action according to the
following relationship:
2/3a = 2/3b - 1/(b+c) + 2/3c ....... (2)where two electric
charges of opposite polarity, one of radius b and one of radius c, are in
surface contact owing to their mutual electrostatic attraction. Of special
interest is the case where a equals b, in which case we can have a particle and
its antiparticle form changing, with no added energy or loss of energy, so as to
remain intact in form whilst giving birth to a charged particle pair for which
the charge radius c is double b.
A basic particle form can, therefore,
given a little extra space, give birth to a secondary particle form having half
the energy of the basic form. This comes together in a scenario where the
vacuum, or aether, is alive with mu-meson forms which merge to become dimuon
energy forms which in turn can shed those half-energy forms as muons. The proton
comes into the picture once we examine how a proton can live in company with a
dimuon. Just differentiate the right hand side of equation (2) with respect to c
to establish the ratio between b and c when the overall energy has become
mimimal with b constant. You will find that:
1/[b+c]2 = 2/3c2 ....... (3)and deduce
that b is 0.22474c and this says that the heavier particle is 4.4496 times the
lighter particle. If the latter is a dimuon of twice the energy of the muon, the
latter being a little larger than 206 electron mass units, then can see how a
proton emerges with a mass of 1836 electron units.
Having said that, I am
now looking at equation (1) with a simple question in mind. The question is
whether, just as there is a universal unit of electric charge e, there is a
universal unit of space volume that that charge could occupy. This brings into
mind the possibility that, since a will be a quite small radius, much smaller
than the radius of the electron, there is a corresponding unit of energy, albeit
one that is really enormous. The idea of a 'unit' is then not one to be seen as
a building block but rather as a massive chunk of energy that might exist
naturally and need to be chopped up to form particles of real matter.
My
interest in this was aroused when I saw the connection with the problem of
Fermat's Last Theorem. If there were a solution to equation (1) with a, b and c
all integers, then I would have been encouraged to probe this subject further.
However, given that no such solution exists, I see no point in that onward
pursuit. I can say, however, that the notion of particles giving birth to other
particles is implicit in a form of equation having multivalued solutions, even
if they are not in integer form.
With equation (1) in mind imagine a pair
of particles having the same charge radius a to be transmuted into two particle
pairs of radius b and c, respectively. Now let b equal c and determine b in
relation to a. It will be smaller. We are saying that therefore that two
particles of the same energy, confined to a given overall volume of space, can
transmute into a two pairs of charges of higher energy, given input of energy.
You can see that b is smaller than a in the ratio of the cube root of one half,
which means that the particle of radius b has a mass that is greater than that
of radius a by the factor of the cube root of 2, that is some 26%
heavier.
However, things are not that simple, at least for the normal
hyperons in the proton to two-proton mass range, as we shall now see. One is of
course tempted to ask if Nature obliges us by generating particles, albeit
short-lived, that support the above proposition and its variants, given that
different combinations of charge forms can be involved. The answer is
affirmative and that is what I was referring to in introducing this Web page. I
will end by quoting the examples listed in TABLE II of the second of those
papers referenced above:
The Table has the form:
and the
supporting description on p. 156 of the paper reads:
"A collective particle transformation is of special interest,
where a three-particle cluster (e.g. two positive charges and one negative
charge of like mass) involves pair annihilation with energy transfer
elsewhere, followed by local adjustments with numerous other such clusters to
conserve both energy and charge volume. The energy/volume ratio is then
one-third that of the original particle form. From the Thomson formula this
implies that the charge radius (inversely proportional to energy) has
decreased by the factor fourth root of three. Such a process can occur in
reverse as energy is forced into a particle system. there is an analogous
process where pair annihilation occurs in the presence of other similar pairs,
which then share the additional space. The factor involved is the fourth root
of 2. this process, like the previous one, appears reversible. Indeed, the
examples to be given relate only to the reverse process, because one of the
particles is the proton and we have only evidence of synthesis of more massive
particle forms.
These appear in the first two examples in Table II. The
remainder of the data in the table shows how the simple transformation of a
three-particle cluster to or from a single particle at constant volume builds
the several hyperons listed. The delta hyperon (1235) forms the tau (1782),
and this has lepton characteristics and can combine with the Q(211) quantum,
the energy of two virtual muons, to form a state from which there is decay to
the hyperon forms listed. As with the data in Table I, the dimuon unit seems
to be a dominant feature."
To conclude, I have decided to rest
my case concerning the production of the numerous high energy particle forms
that are generated in the collisions occurring in particle accelerators. It
suffices to let my published papers serve their role by sitting quietly on
university library shelves and patiently awaiting any interest that may be shown
by those who seek enlightenment.
Harold Aspden
To progress to the next Tutorial press:
Tutorial No.
18
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