Difference between revisions of "Sadiq Thesis Latex"

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=PDF=
 
  
[[File:Sadiq_hesis_Latex.pdf]]
 
  
= Text =
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Sadiq Thesis in pdf: [[File:Sadiq_hesis_Latex.pdf]]
  
==Introduction==
 
\chapter{Introduction}
 
  
\section{Positron Beam}
 
  
Positrons have many potentials in many discipline of science, like chemistry, physics, material science, surface science, biology and nanoscience~\cite{Chemerisov:2009zz}. There are many different ways to generate positrons, and the main challenge is increasing the intensity (or current) of the positron beam.
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=Chapter 1: Introduction [[File:sadiq_thesis_chapt_1.txt]]=
  
\section{Motivation}
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=Chapter 2: Apparatus [[File:sadiq_thesis_chapt_2.txt]]=
  
The nucleon electromagnetic form factors are fundamental  quantities that related to the charge and magnetization distribution in the nucleon. Conventionally, the nucleon form factors are measured using Rosenbluth Technique (RT)~\cite{Rosenbluth1950}. 
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=Chapter 3: Data Analysis [[File:sadiq_thesis_chapt_3.txt]]=
The form factor scaling ratio, \begin{math}R=\mu _p G_{Ep} / G_{Mp}\end{math}, measured using this technique is around unity as shown in the figure below~\cite{PhysRevD.49.5671}.
 
Since nighties, a technique using elastic electron-proton polarization transfer to measurement this ratio have been developed~\cite{PhysRevD.49.5671, PhysRevC.68.034325, WalkerThesis1989}. In this technique, form factor scaling ratio linearly decreases as the \begin{math}Q^2\end{math} increases, as shown in the Fig.~\ref{rosen-com-RPT}.
 
  
\begin{figure}[htb]
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=Chapter 4: Simulation [[File:sadiq_thesis_chapt_4.txt]]=
\centering
 
\includegraphics[scale=0.70]{1-Introduction/Figures/Sadiq_thesis_mot_RT_RPT_1.png}
 
\caption{Form factor ratio, obtained by Rosenbluth Technique (hollow square) and results from Recoil Polarization Technique~\cite{PhysRevC.68.034325}.}
 
\label{rosen-com-RPT}
 
\end{figure}
 
  
 
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=Chapter 5: Conclusion [[File:sadiq_thesis_chapt_5.txt]]=
The disagreement could arise from the fact the Rosenbluth Techqniue assumes that One Photon Exchange (OPE) during the scattering while the two–photon exchange (TPE), which depends weakly on \begin{math}Q^2\end{math}, could also become considerable with increasing \begin{math}Q^2\end{math}~\cite{PhysRevC.68.034325}. The contribution of TPE can be obtained by comparing the ratio of \begin{math}e^+~p\end{math} to \begin{math}e^-~p\end{math} ratio. The interference of OPE and TPE can also be studied in the process \begin{math}e^+e^- \rightarrow p\bar p\end{math}
 

Latest revision as of 17:42, 14 March 2014