by John Ringo
Electromagnetism works through the photon, which accounts for radio, microwaves, terahertz waves, infrared, visible light, ultra-violet, x rays, gamma rays, and anything higher energy than that. This theory also explains the interactions of electrons and the electric and magnetic fields and is refered to as quantum electrodynamics or QED and is the field that Richard Feynman is most famous for. Humanity really, and I mean REALLY, understands QED. Or at least we think we do.
The weak force works via the W and Z bosons which were predicted by Abdus Salam, Steven Weinberg, and one of my idols, Sheldon Glashow. These guys won a Nobel prize in 1979 after the bosons were finally measured to exist in a particle collision experiment. The study of the weak force interactions is known as GWS theory for the founders. Sometimes it is apparently called quantum flavordynamics but I’ve never actually heard that used out loud by anyone. It is the weak force that allows for the color of gluons in a neutron to change and therefore allow it to decay into a proton. Interestingly enough, the process requires another field from which the heavy W and Z bosons can gain mass and hence we have the Higgs field (sometimes we’ll hear Higgs mechanism). You see, the interaction between the electromagnetic boson (the photon) and the weak force bosons (W and Z bosons) requires a middle man to transfer various properties including mass as the weak force bosons are heavy and the photon is massless. This middle man is the Higgs boson, which by the way has never been measured no matter what drunk particle physicists might claim.
The strong force uses the gluons and describes the way that particles in a nucleus of an atom (protons and neutrons) are held together. The study of the strong force particles is known as quantum chromodynamics or QCD. QCD was championed by Frank Wilczec, David Politzer, and David Gross who shared a Nobel prize in 2004 for their theory. The strong force governs hadrons, which are particles made up of quarks and gluons. The hadrons contain baryons, which are fermions made of three quarks (with gluons holding them together), and mesons, which are made of two quarks (again with gluons holding them together). These gluons have colors of red, green, or blue and don’t forget the anticolors. Seriously, I’m not making this maulk up! When one of these gluons changes color is when there are neutrons decaying into protons as described above in the weak interaction description.
Finally, know this, in this book we mention a new set of “make believe” bosons that are connected and when manipulated properly allow for travel from one to another. This idea of Looking Glass bosons is not unlike at all how the Higgs boson transfers the effect of mass from an all encompassing and permeating field (the Higgs field or Higgs ocean) between the massless boson and the massive bosons of the electromagnetic and weak fields. It is possible that as we understand new ideas in modern physics we will uncover some similar mechanisms that will allow for “gate travel” as Ringo and I describe in this book. On the other hand, we could have just made all this maulk up.
“Doc” Travis S. Taylor
Harvest, Alabama
August 2006
FB2 document info
Document ID: c800140c-baf5-4bd1-9402-c9bc00b090e8
Document version: 1
Document creation date: 29.09.2010
Created using: Fiction Book Designer, FictionBook Editor 2.4 software
Document authors :
Verdi1
About
This file was generated by Lord KiRon's FB2EPUB converter version 1.1.5.0.
(This book might contain copyrighted material, author of the converter bears no responsibility for it's usage)
Этот файл создан при помощи конвертера FB2EPUB версии 1.1.5.0 написанного Lord KiRon.
(Эта книга может содержать материал который защищен авторским правом, автор конвертера не несет ответственности за его использование)
http://www.fb2epub.net
https://code.google.com/p/fb2epub/