Difference between revisions of "Theory"
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<math>A_{1,2H}</math><sup><math>\pi^+ - \pi^-</math></sup> = <math>\frac {A^{\pi^+}} {1 + \frac {1} {R_p^{{\pi^+}/{\pi^-}}} } </math> - <math>\frac {A^{\pi^-}} {1 + R_p^{{\pi^+}/{\pi^-}} } </math><br> | <math>A_{1,2H}</math><sup><math>\pi^+ - \pi^-</math></sup> = <math>\frac {A^{\pi^+}} {1 + \frac {1} {R_p^{{\pi^+}/{\pi^-}}} } </math> - <math>\frac {A^{\pi^-}} {1 + R_p^{{\pi^+}/{\pi^-}} } </math><br> | ||
+ | |||
+ | where <math>R_2H^{\pi^+/\pi^-} = \frac{\sigma^{\pi^+}} {\sigma^{\pi^-}}</math> |
Revision as of 18:13, 18 July 2007
Inclusive Scattering
W
Semi-Inclusive Scattering
Quark distribution Functions
Unpolarized
Polarized
The inclusive double polarization asymmetries
can be written in terms of polarized and unpolarized valence quark distributions,
I =
I =
The semi-inclusive pion electro-production asymmetries can be written in terms of the valence quark distributions
=
=
where
where is the measured difference of the yield from oppositely charged pions.
The semi - inclusive asymmetry can be expressed in the following way
where