Difference between revisions of "TF InclusiveDeltaDoverD"

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using the above definition to define the proton and neutron unpolarized structure function{
 
using the above definition to define the proton and neutron unpolarized structure function{
  
<math> F_1^p(x) \equiv \frac{1}{2} \sum_q e_i^2 q_i^p(x) </math>  ;;;;;  <math> F_1^n(x) \equiv \frac{1}{2} \sum_q e_i^2 q_i^n(x) </math>
+
<math> F_1^p(x) \equiv \frac{1}{2} \sum_q e_i^2 q_i^p(x) </math>  \;\;\;\;\;  <math> F_1^n(x) \equiv \frac{1}{2} \sum_q e_i^2 q_i^n(x) </math>
  
 
Using Isosping symmetry
 
Using Isosping symmetry

Revision as of 16:06, 22 September 2018

Delta_D_over_D

[math] q_i(x) \equiv q_i^{\parallel}(x) + q_i^{\perp}(x)[/math]

[math] \Delta q_i(x) \equiv q_i^{\parallel}(x) - q_i^{\perp}(x)[/math]



[math] F_1(x) \equiv \frac{1}{2} \sum_q e_i^2 q_i(x) [/math]


using the above definition to define the proton and neutron unpolarized structure function{

[math] F_1^p(x) \equiv \frac{1}{2} \sum_q e_i^2 q_i^p(x) [/math] \;\;\;\;\; [math] F_1^n(x) \equiv \frac{1}{2} \sum_q e_i^2 q_i^n(x) [/math]

Using Isosping symmetry

[math]u(x) \equiv u^p(x)\equiv d^n(x) [/math] and [math]d(x) \equiv d^p(x)\equiv u^n(x) [/math]

[math] F_1^p(x) \equiv \frac{1}{2} \sum_q e_i^2 q_i^p(x) [/math]

[math] g_1(x) \equiv \frac{1}{2} \sum_q e_i^2 \Delta q_i(x) [/math]

[math]g_1^d \approx \left ( 1 - 1.5 \omega_D \right ) \left ( g_1^n + g_1^p \right )[/math]<ref> Eq. 28 from https://arxiv.org/abs/1505.07877 which is based on https://arxiv.org/abs/0809.4308</ref>


<references />


Delta_D_over_D