Schwinger (Dyon) Fields – links to neutrino fields, gluon fields, particle fields, mass fields, Higgs fields, vacuum fields, gravitational fields
Schwinger (Dyon) Fields – links to neutrino fields, gluon fields, particle fields, mass fields, Higgs fields, vacuum fields, gravitational fields
Maury’s August newsletter is at https://www.hep.anl.gov/ndk/longbnews/2408.html and the Index is at https://www.hep.anl.gov/ndk/longbnews/index.html
For many years I have been trying to find a decent model of neutrino generation and detection and to find the relation between neutrinos, the gravitational potential, and gluon plasma (as a substance with very specific properties that can be modeled and give reliable results. So when I read Leonid Slad’s paper today, it instantly simplified many things for me.
[ Leonid should not do the relativistic corrections in every equation that way. That can be simplified in a model for calculations. The voxel level properties can be separated and “relativistic” only used at the interfaces and where gradients are strong. The “relativistic” effects are several things that are properties of “the vacuum as a dyon field”. CERN made it much too complicated because they have too many people getting paid and a few people cannot keep track of that and make all the funding decisions and the directions.)
[ It is Leonid (and others) whole body of work, a larger effort, that matters. I am trying to map it out. But they could adapt and meet halfway if Moscow is not destroyed in a useless war. “Work together” is a lot better than invade and kill. ]
Julian Schwinger made up the name. But I am generalizing it. A dyon field is any regions (voxels) with known or modeled charge and magnetic structure. Any region with moving positive and negative charges however small or fast. Dyon fields can be made out of gluon plasma. A region can wrap a “particle” or any set of high energy density (by volume) regions. Then “collide that dyon” or “store those dyons” or “make a mole of dyons with these properties” or “store the output of that energy generator in this type of dyon and ship it to Moon Base 1.”
The vacuum can be modeled as overlapping dyon fields, however temporary or small. The Higgs field can be nicely modeled in terms of potentials, gradients, charge, flows, rigidity, and many other properties — using electromagnetic units, which can be converted into any other units.
I am trying to map out “the standard model” but legions of individuals, all focused on their own things, did not map the whole and put it where every human can see and understand it. “The vacuum” is NOT clearly delineated and mapped on the Internet. And many things that do apply are ignored or forgotten or left out. It has to be taken as a whole, not “what one human can do in a few hours” or years. Or “we like our old models because we had to go that way”.
The biggest reason Schwinger could not get people to work together was they all insisted on using only what they were familiar with. A dyon region is a plasma. A plasma can be stored as a dyon field. The reason for remembering that it has electric and magnetic field and those are dynamic is to remember that every voxel is important and might make a critical difference. A dyon can have a 3D basis set of many forms. A dyon remembers the legacy of Schwinger. It is a useful unique tag on the Internet like #dyon or #dyons or #DyonFields or #SchwingerDyonFields
I have been telling groups “it is electromagnetism all the way down” and I did not know that Julian Schwinger wanted to go that direction. I know almost exactly what it means for new global industries, in great detail. But I am just one person, so I can only try to leave some breadcrumbs and hope someone notices. These are my rough notes this morning, just to post it where it might be seen and remembered and maybe shared.
