Ces particules seraient des constituants des quarks, electrons et neutrinos.
Y | G | Q=(Y+G)/2 | N=(Y-G)/2 | ||
R_a_i | T_a_i | 1/3 | 1/3 | 1/3 | 0 |
R^a^i | ~T^a^i | -1/3 | -1/3 | -1/3 | 0 |
R^i_a | V^i_a | -1/3 | 1/3 | 0 | -1/3 |
R^a_i | ~V^a_i | 1/3 | -1/3 | 0 | 1/3 |
Shin_i_j_k = R_a_i R_b_j R_c_k e^a^b^c (e = epsilon)
positron e+ = Shin_i_j_k e^i^j^k = R_a_i R_b_j R_c_k e^a^b^c e^i^j^k
electron e- = ~Shin_i_j_k e^i^j^k
neutrino ~V_e = e_a_b_c ~V^a_i ~V^b_j ~V^c_k e^i^j^k
B = Shin_i_j_k e^i^j^k e_a_b_c Shin^a^b^c = Shin_i_j_k Shin^i^j^k
Z0 = ~Shin_i_j_k Shin^i^j^k
photon gamma = Shin_i_j_k ~Shin^i^j^k
W+ = Shin_i_j_k Shin^i^j^k
W- = ~Shin_i_j_k ~Shin^i^j^k
quark u_m = e_k_l_m Shin^k_i_j e^i^j^l = e_k_l_m T_a_i T_b_j V^k_c e^a^b^c e^i^j^l
quark d_m = e_k_l_m ~Shin^k_i_j e^i^j^l = e_a_b_c e_k_l_m ~V^a_i ~V^b_j ~T^c^k e^i^j^l
e^i^j^k = A^i^j^k_a 1^a ; A^i^j^k_a = D_a e^i^j^k = e^i^j^k e_l_m_n A^l^m^n_a ; D_a = e_l_m_n A^l^m^n_a