Introduction
The material world has two limit scale, that is, "small universe" and "big horizen", "small universe" like mysterious Pandora's magic box, collecting numerous variety of micro particles And becoming an important part of this world, human beings into micro-world, accompanied by another mysterious particle discovery - molecule, atom, nuclear nucleus, light, quark ... Each microscopic particle is surprised It is found that it is a big step towards the micro-world. Every microscopic particle is shining, and we have more knowledge of the world. Each micro-particle understanding process is a brilliant struggle of science giants, each A microstructure application has brought major changes to our civilization.
Classification
In my thinking, a large number of basic particles is three categories:
first category: pure single particles, Medium , Electron, large uniform particles, quark.
Sequence: Particles synthesized by two basic particles, such as π meon, W, Z bicycane.
Third Category: Particles synthesized from three basic particles, such as neutron, protons and other strong monks.
The large uniform particles in the first type of particles cannot be free to exist, and they must be two coexistence, which constitutes the π meon, and the W bicycle.
The quark in the first class cannot be existed alone, and they must be three and exist, which constitutes strong monks such as protons and neutrons.
Operation
Basic particle quality relationship
Thus, as long as we analyze the first type of particles, we know the case of the second and third types of particles, the following It is analyzed from the quality of the particles.
Quality conversion relationship
big unified particle second generation - SINα → Quark -Sinα → large uniform particle generation - SINα → Electronics-Sinα → Medium 微子
According to the theory of complex space, SINα is the strength of the force, in which the relationship is uniform, since there is only two power intensities:
for strong force SINα = 1-5 In order to take 4.7
for weak electric interactions, sinα = 1/137
Because the quality of electrons is known, let's estimate The mass of the other particles,
Electron mass = 0.51 MeV
by relationship: m medium = M electron sinα. (Weak power participation), so sinα = 1/137)
1, medium micron mass = 0.0037 mev
Through the relationship: M electron = M large unified particles sinα. (Weak power participation), so sinα = 1/137)
2, large uniform particle generation quality = 70 mev
Through relationship: M big unified particle generation = M Quark sinα . (Strong force is involved in the process, for sinα = 4.7)
3, quark mass = 330 mev
Through the relationship: m Quark = M large unified particle second generation sinα. (Weak power participation), for sinα = 1/137)
4, M large unified particle second generation = 45Gev
Synthetic particles quality
Since we can't observe the quality of the large unified particles, the second generation and quark quality, but we can draw the quality of its synthetic particles:
π meon mass = 2 × big unified particle generation = 2 × 70 = 140Mev
Neon mass = 3 × quark = 3 × 330 = 990 mev
W, Z Bangang = 2 × 2 × 45 = 90Gev
After the particle is combined, the combination can consume part of the quality, so the true quality measured by the laboratory is high.
Particle Quality
Neutral π meon mass is 135 MeV, the mass of the positive and negative π metonon is: 139.57mev
neutron, proton mass about 939 mev
w Bolt mass 80Gev, Z Bolt mass 91 gev.
Theory is basically consistent with the experiment, in fact, this is quite good.