Although my understanding of the Higgs is very very rudimentary, I
still
think I can contribute.
So let me briefly review what the Fusion Barrier Principle is and then
attempt to show that no Higgs particle can exist in such a world.
FBP: Fusion Barrier Principle: The idea of this principle is that all
forces of physics reduce to the Coulomb's Law and the Maxwell
Equations. So all physics phenomenon in their most basic form
are mixtures of the Maxwell Equations. Thus a machine such as
ITER or a tokamak is nothing more than a mix of the Maxwell Equations
and in particular the Faraday's law versus the Coulomb law. In simple
form, Faraday's law is considered to be a cylinder and Coulomb's a
sphere. That the energy of the sphere is never greater than 2/3 the
energy
of a cylinder. So the sphere is the energy of fusion begot out of the
machine and the cylinder is the controlling functions to allow for the
fusion to take place. Basically the volume of a sphere inside a
cylinder
is never larger than 2/3.
So if the world can never extract useable energy from fusion due to
the
FBP, then, does that relationship apply to whether a Higgs boson
particle
can exist?
--- quoting ---
http://en.wikipedia.org/wiki/Higgs_boson#Theoretical_overview
The Higgs boson particle is one quantum component of the theoretical
Higgs field. In empty space, the Higgs field has an amplitude
different from zero; i.e., a non-zero vacuum expectation value. The
existence of this non-zero vacuum expectation plays a fundamental
role: it gives mass to every elementary particle which has mass,
including the Higgs boson itself. In particular, the acquisition of a
non-zero vacuum expectation value spontaneously breaks electroweak
gauge symmetry, which scientists often refer to as the Higgs
mechanism. This is the simplest mechanism capable of giving mass to
the gauge bosons while remaining compatible with gauge theories. In
essence, this field is analogous to a pool of molasses that "sticks"
to the otherwise massless fundamental particles which travel through
the field, converting them into particles with mass which form, for
example, the components of atoms.
In the Standard Model, the Higgs field consists of two neutral and two
charged component fields. Both of the charged components and one of
the neutral fields are Goldstone bosons, which act as the longitudinal
third-polarization components of the massive W+, W–, and Z bosons. The
quantum of the remaining neutral component corresponds to the massive
Higgs boson. Since the Higgs field is a scalar field, the Higgs boson
has no spin, hence no intrinsic angular momentum. The Higgs boson is
also its own antiparticle and is CP-even.
The Standard Model does not predict the mass of the Higgs boson. If
that mass is between 115 and 180 GeV/c2, then the Standard Model can
be valid at energy scales all the way up to the Planck scale (1016
TeV). Many theorists expect new physics beyond the Standard Model to
emerge at the TeV-scale, based on unsatisfactory properties of the
Standard Model. The highest possible mass scale allowed for the Higgs
boson (or some other electroweak symmetry breaking mechanism) is 1.4
TeV; beyond this point, the Standard Model becomes inconsistent
without such a mechanism because unitarity is violated in certain
scattering processes. Many models of supersymmetry predict that the
lightest Higgs boson (of several) will have a mass only slightly above
the current experimental limits, at around 120 GeV or less.
--- end quoting ---
I am unfamilar with the Higgs mechanism. So I am
going to poke some guesses. That if you consider every subatomic
interaction as a small tokamak where
there is a force of control of input energy and a output
energy, then it is, I guess impossible to achieve a particle with such
prescribed mass that could fit a
Higgs.
The reason the FBP exists is because the energy of
Faraday's or (Ampere's) laws have more energy residing within them
then does the resident energy of
Coulomb's law. So that the Higgs mechanism would
thus say that the Coulomb's law can be as large or larger than either
Faraday's or Ampere's law vis a vis
energy content.
Archimedes Plutonium
www.iw.net/~a_plutonium
whole entire Universe is just one big atom
where dots of the electron-dot-cloud are galaxies
----------------------
your bottom line is right!!
Y.P
--------------------------------
> On Nov 22, 8:33�am, Archimedes Plutonium
What? A pair of scientists?
Bill
--
As the years go by, dying just before having to fill out a tax return has merit.