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首页> 外文期刊>Journal of Modern Physics >Pseudoscalar Top-Bottom Quark-Antiquark Composite as the Resonance with 28 GeV at the LHC: Hadron Masses and Higgs Boson Masses Based on the Periodic Table of Elementary Particles
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Pseudoscalar Top-Bottom Quark-Antiquark Composite as the Resonance with 28 GeV at the LHC: Hadron Masses and Higgs Boson Masses Based on the Periodic Table of Elementary Particles

机译:伪标量顶-底夸克-反夸克复合物在大型强子对撞机中具有28 GeV的共振:基于基本粒子周期表的强子质量和希格斯玻色子质量

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This paper posits that the observed resonance with 28 GeV at the LHC is the pseudoscalar top-bottom quark-antiquark composite which has the calculated mass of 27.9 GeV derived from the periodic table of elementary particles. The calculated mass is for the mass of? . In the periodic table of elementary particles, t quark (13.2 GeV) in the pseudoscalar top-bottom quark-antiquark composite is only a part of full t quark (175.4 GeV), so pseudoscalar? (26.4 GeV) cannot exist independently, and can exist only in the top-bottom quark-antiquark composite. As shown in the observation at the LHC, the resonance with 28 GeV weakens significantly at the higher energy collision (13 TeV), because at the higher collision energy, low-mass pseudoscalar? in the composite likely becomes independent full high-mass vector? moving out of the composite. The periodic table of elementary particles is based on the seven mass dimensional orbitals derived from the seven extra dimensions of 11 spacetime dimensional membrane. The calculated masses of hadrons are in excellent agreement with the observed masses of hadrons by using only five known constants. For examples, the calculated masses of proton, neutron, pion ( π ~( ± ) ), and pion ( ± ~(0)) are 938.261, 939.425, 139.540, and 134.982 MeV in excellent agreement with the observed 938.272, 939.565, 139.570, and 134.977MeV, respectively with 0.0006%, 0.01%, 0.02%, and 0.004%, respectively for the difference between the calculated and observed mass. The calculated masses of the Higgs bosons as the intermediate vector boson composites are in excellent agreements with the observed masses. In conclusion, the calculated masses of the top-bottom quark-antiquark composite (27.9 GeV), hadrons, and the Higgs bosons by the periodic table of elementary particles are in excellent agreement with the observed masses of resonance with 28 GeV at the LHC, hadrons, and the Higgs bosons, respectively.
机译:本文假定在LHC处观察到的与28 GeV的共振是假标量顶-底夸克-反夸克复合材料,该复合材料具有从基本粒子周期表得出的计算质量27.9 GeV。计算出的质量是多少? 。在基本粒子的周期表中,伪标量顶夸克-反夸克复合物中的t夸克(13.2 GeV)只是完整t夸克(175.4 GeV)的一部分,所以拟标量? (26.4 GeV)不能独立存在,而只能存在于上下夸克-反夸克复合物中。如大型强子对撞机的观察所示,在较高的能量碰撞(13 TeV)下,与28 GeV的共振明显减弱,因为在较高的碰撞能量下,低质量的伪标量?在复合中是否有可能成为独立的完整高矢量?从复合材料中移出。基本粒子的周期表基于从11个时空维膜的7个额外维数派生的7个质量维数轨道。通过仅使用五个已知常数,所计算的强子质量与观测到的强子质量非常一致。例如,质子,中子,介子(〜(+)(〜)(0))的计算质量为938.261、939.425、139.540和134.982 MeV,与观察到的938.272极好, 939.565、139.570和134.977MeV,分别为0.0006%,0.01%,0.02%和0.004%,用于计算质量和观测质量之间的差异。作为中间矢量玻色子复合材料的希格斯玻色子的计算质量与观察到的质量极佳地吻合。总之,通过基本粒子周期表计算出的顶部-底部夸克-反夸克复合物(27.9 GeV),强子和希格斯玻色子的质量与在LHC处观察到的28 GeV的共振质量非常吻合,强子和希格斯玻色子。

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