G-parity
In theoretical physics, G-parity is a multiplicative quantum number that results from the generalization of C-parity to multiplets of particles. C-parity applies only to neutral systems; in the pion triplet, only π0 has C-parity. On the other hand, strong interaction does not see electrical charge, so it cannot distinguish amongst π+, π0 and π−. We can generalize the C-parity so it applies to all charge states of a given multiplet: where ηG = ±1 are the eigenvalues of G-parity. The G-parity operator is defined as where (see Q, B, Y). In general . .
G-parity
In theoretical physics, G-parity is a multiplicative quantum number that results from the generalization of C-parity to multiplets of particles. C-parity applies only to neutral systems; in the pion triplet, only π0 has C-parity. On the other hand, strong interaction does not see electrical charge, so it cannot distinguish amongst π+, π0 and π−. We can generalize the C-parity so it applies to all charge states of a given multiplet: where ηG = ±1 are the eigenvalues of G-parity. The G-parity operator is defined as where (see Q, B, Y). In general . .
has abstract
Die G-Parität ist eine multipl ...... nzahl B und der Hyperladung Y.
@de
G-чётность (же-чётность) (ηG) ...... и Янг Чжэньнинем в 1956 году.
@ru
In theoretical physics, G-pari ...... on–antiboson systems we have .
@en
Nella fisica teorica, la parit ...... ò distinguere tra π+, π0 e π−.
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Wikipage page ID
30.863.843
Wikipage revision ID
541.031.378
subject
comment
Die G-Parität ist eine multipl ...... nzahl B und der Hyperladung Y.
@de
G-чётность (же-чётность) (ηG) ...... и Янг Чжэньнинем в 1956 году.
@ru
In theoretical physics, G-pari ...... (see Q, B, Y). In general . .
@en
Nella fisica teorica, la parit ...... ò distinguere tra π+, π0 e π−.
@it
label
G-Parität
@de
G-parity
@en
G-чётность
@ru
Parità G
@it