As it is clear from the calculation in the paper The Higgs-like Bosons and Quark Compositeness, H0+1 and H0-1 refer to particle and antiparticle, and thus, in terms of mass, H0+1 and H0-1 should have the same mass. Therefore, H0 has two masses. Following this reasoning we expect H++1 and H+-1 to have the same mass which should be equal to the mass of H–+1 and H–-1 , and thus these four bosons should have the same mass. The same should hold for H++2, H+-2, H–+2 and H–-2 that should have the same mass. Therefore, the eleven Higgs-like bosons should have four different masses. The number eleven comes from three H0, four H+ and four H– and includes particles and antiparticles.
The bosons H+ and H– can be found from weak decays of heavy mesons such as the B mesons decays analyzed by the BaBar collaboration which reported an excess that points in the direction of charged Higgs-like bosons. For references, please take a look at the above paper The Higgs boson and quark compositeness or go directly to
I am recreating this post that was erased somehow, I do not know how.
Considering that each quark is composed of two prequarks, called primons, it is shown that the recently found neutral Higgs-like boson belongs to a triplet constituted of a neutral boson and two charged bosons and , and that is, actually, a triplet and both and are doublets. The quantum numbers of these bosons are calculated and shown to be associated to a new kind of hypercharge which is directly related to the weak decays of hadrons and to the CKM matrix elements. Solutions to the proton spin puzzle and to other problems of particle physics are presented.
This above text is the abstract of the paper The Higgs-like Bosons and Quark Compositeness.
Another paper on the same subject, but with further developments, was presented at Moriond 2104. The paper is called The Higgs boson and quark compositeness. You cann also take a look at its presentation.
The figure below is part of the paper presented at Moriond 2014. See the whole paper at the link. The transition from b to c is compatible with BaBar results as shown in BaBar’s paper. Abstract Considering that each quark is composed of two prequarks it is shown that the recently found Higgs boson belongs […]
At Moriond 2014 (XLIXTH Rencontres de Moriond) I presented the paper The Higgs boson and quark compositeness
At the Rencontres de Moriond 2014 (http://moriond.in2p3.fr/QCD/2014/) in La Thuile, Italy, I presented the talk The Higgs Boson and Quark Compositeness in which I show that the recently found Higgs boson is just one of the bosons of a large multiplet. To see the talk, please click on the link http://moriond.in2p3.fr/QCD/2014/SundayAfternoon/Everaldo.pdf The corresponding paper related to […]
There should be three Higgs-like bosons, a neutral boson H0 and two charged bosons, H+ and H–, arranged in a triplet and a quadruplet, respectively, as shown in the papers The Higgs-like Bosons and Quark Compositeness that clearly shows that the bosons have Spin 0 and are, thus, scalar bosons, and also that they carry new […]