header image
START arrow Whether new particle Y(4140) is confirming the correctness of MSq?
Whether new particle Y(4140) is confirming the correctness of MSq? Print E-mail
Apr 02, 2009 at 08:13 PM

EnWhether discovering the new  particle Y(4140) in Fermilab is confirming the correctness of the Subquark Model?

            Mesons B in the Subquark Model have the fullerene structure as regular icosahedrons with 30 bonds, surrounded with truncated icosahedrons, that is 32 -faces with 90 bonds (they are corresponding to the structure of fullerene C60). Such structures of layered fullerenes are being called nanobulbs (rather femtobulbs). The total amount of strong bonds (between biquarks) would equal 120, what in dividing bonds would give: 64Ba + 56Bs ≈ 5 274 [MeV]. The remaining remainder of mass are creating strong-lepton bonds (bonds  between biquarks and leptons and between very leptons inside the structure of this meson)[1].      

            According to the newest news reports from Fermilab[2] the B+ meson sometimes disintegrates anew discovered particle Y(4140) and meson K+:

 B+ disintegrates into:

            Y(4140) + K+

            and next Y(4140) into: J/ψ  +  φ

                                                                                   J/ψ into:  μ+ +  μ-  

                                                                                  φ into:   K+  + K-

            Particles Y(4140) can be fullerenes 60 (truncated icosahedrons), that is 32 -faces with 90 bonds (60 biquarks). In the B+ meson is disintegrating the internal fullerene - regular icosahedron with 30 bonds and K+ is coming into existence (the cube or the hexagonal prism). External fullerene 60 forms the particle Y(4140). Expected number of strong bonds of the particle Y(4140) is equal: 48Ba + 42Bs ≈ 3 956 [MeV]. Lepton bonds would create remaining missing mass.


More in the enclosed pdf file.  Image

Calculations of mass of the particle Y(4140) for different amounts of its internal bonds it is possible to make with „Mass Calculator": http://all-subquarks.eu/ALfiles/CalcMass.html

AL


 [1] Ampel Leszek, B. Detailed model - Subquark structure of matter, (2009), http://all-subquarks.eu/

[2]  Source: Fermilab  http://www.fnal.gov/,  „Particle oddball surprises CDF physicists", (03.18.2009) http://www.fnal.gov/pub/presspass/press_releases/Y-particle-20090318.html

 

Last Updated ( Nov 13, 2010 at 06:45 PM )