RE: [Vo]: Re: Heavy Baryon (*P)

[Frederick Sparber]

From the pro(Vo)cative confusion and increased Spam in my Email too. :-(   Apart from twice the mass of a regular 938 MeV Proton, the Triad of Two Positive Charges,  Spin 1/2 CW  and One Negative Charge, Spin 1/2 CCW, (odd-man-out 4th particle decays to an electron)net spin 1/2 CW, Nuclear Magnetic Moment 2.81/2 magnetons from pair production from  ~ 2 GeV  "Big Bang" Photons  (n* 1.02E6/alpha) where n = 4 for the regular proton progenitor mesons and n = 8 for the (*P). 1.02E6 is the photon for Electron-Positron pair production the (*P) should weigh in at about 1876 MeV.   Reverse the charge lineup in the Triad and you get AntiProtons or Anti(*P)s. with an odd-man-out positron instead of an electron.   Judging by 0.04% Oxygen-17, I would say about one in 2,500 more or less in Hydrogen.  Nature likes to break photons into a pair of circles in specific quantized diameters/wavelengths.  A plus-plus for the elegant String Theory. :-)   Fred ----- Original Message ----- From: Jones Beene To: [EMAIL PROTECTED];vortex-l@eskimo.com Sent: 6/27/2006 9:03:10 AM Subject: [Vo]: Re: Heavy Baryon (*P) Would the putative heavy baryon have twice the charge and collect two electrons from the start?   i.e. uncharged hydrinohydride, made on the sun  ;-}   Would there be ppm quantities of this putative species in any tank of H2 gas?   If so, run a whole tank of hydrogen through a mass-spec and see if you can collect any gas which is not ionized at the highest setting. ----- Original Message ----- From: Frederick Sparber   Staying within the rules that the three mesons "QuarkTriad" that make up the proton had an original mass of ~548 MeV (two positive and one  negative charge) with a manifest mass of 312 MeV each in the bound proton it is possible that nature created mesons of twice this energy and they are bound up as a Heavy Proton (*P+) with a mass Twice that of a regular proton. Thus some deuterons may be (*H ), some (*H )D may be mistaken for He-4 .....and K-40, and especially Jones Beene's Oxygen 17 and 18.  :-)   The "easy" D+ He-3 fusion reaction that has a cross-section comparable that of D-T gives one pause to ask if all that "He-3 on the Moon" is really what they think?   WIMPs in Space even heavier Baryons?   Fred