Difference between revisions of "Theory"

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The semi-inclusive pion electro-production asymmetries can be written in terms of the valence quark distributions in the following way <br>
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The semi-inclusive pion electro-production asymmetries can be written in terms of the valence quark distributions <br>
 
<math>A_{1, p}</math><sup><math>\pi^+ - \pi^-</math></sup> =  <math>\frac {4\triangle u_v (x) - \triangle d_v (x)} {4 u_v (x) - d_v (x)} </math> <br>
 
<math>A_{1, p}</math><sup><math>\pi^+ - \pi^-</math></sup> =  <math>\frac {4\triangle u_v (x) - \triangle d_v (x)} {4 u_v (x) - d_v (x)} </math> <br>
  
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<math>A</math><sup><math>\pi^+ - \pi^-</math></sup> =<math>\frac {\sigma^{\pi^+ - \pi^-}_{\uparrow \downarrow} - \sigma^{\pi^+ - \pi^-}_{\uparrow \uparrow}} {\sigma^{\pi^+ - \pi^-}_{\uparrow \downarrow} + \sigma^{\pi^+ - \pi^-}_{\uparrow \uparrow}} </math><br>
 
<math>A</math><sup><math>\pi^+ - \pi^-</math></sup> =<math>\frac {\sigma^{\pi^+ - \pi^-}_{\uparrow \downarrow} - \sigma^{\pi^+ - \pi^-}_{\uparrow \uparrow}} {\sigma^{\pi^+ - \pi^-}_{\uparrow \downarrow} + \sigma^{\pi^+ - \pi^-}_{\uparrow \uparrow}} </math><br>
 
where <math>\sigma^{\pi^+ - \pi^-}</math> is the measured difference of the yield from oppositely charged pions.<br>
 
where <math>\sigma^{\pi^+ - \pi^-}</math> is the measured difference of the yield from oppositely charged pions.<br>
 +
The semi - inclusive asymmetry can be expressed in the following way<br>
 +
 +
<math>A_{1,2H}</math><sup><math>\pi^+ - \pi^-</math></sup> = <math>\frac {A^\pi^+} {1} </math>

Revision as of 18:05, 18 July 2007

Inclusive Scattering

W

Semi-Inclusive Scattering

Quark distribution Functions

Unpolarized

Polarized

The inclusive double polarization asymmetries [math]A_N[/math] can be written in terms of polarized [math]\triangle q_v (x)[/math] and unpolarized [math] q_v (x)[/math] valence quark distributions,


[math]A_{1, p}[/math]I = [math]\frac {4\triangle u_v (x) + \triangle d_v (x)} {4 u_v (x) + d_v (x)} [/math]
[math]A_{1, n}[/math]I = [math]\frac {\triangle u_v (x) + 4\triangle d_v (x)} {u_v (x) + 4d_v (x)} [/math]


The semi-inclusive pion electro-production asymmetries can be written in terms of the valence quark distributions
[math]A_{1, p}[/math][math]\pi^+ - \pi^-[/math] = [math]\frac {4\triangle u_v (x) - \triangle d_v (x)} {4 u_v (x) - d_v (x)} [/math]


[math]A_{1,2H}[/math][math]\pi^+ - \pi^-[/math] = [math]\frac {\triangle u_v (x) + \triangle d_v (x)} { u_v (x) + d_v (x)} [/math]


where

[math]A[/math][math]\pi^+ - \pi^-[/math] =[math]\frac {\sigma^{\pi^+ - \pi^-}_{\uparrow \downarrow} - \sigma^{\pi^+ - \pi^-}_{\uparrow \uparrow}} {\sigma^{\pi^+ - \pi^-}_{\uparrow \downarrow} + \sigma^{\pi^+ - \pi^-}_{\uparrow \uparrow}} [/math]
where [math]\sigma^{\pi^+ - \pi^-}[/math] is the measured difference of the yield from oppositely charged pions.
The semi - inclusive asymmetry can be expressed in the following way

[math]A_{1,2H}[/math][math]\pi^+ - \pi^-[/math] = [math]\frac {A^\pi^+} {1} [/math]

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