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− | <center><math>\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \frac{16p^{*4}\sin^4{\frac{\theta}{2}}+16E^{*4}}{16p^{*4}\cos^4{\frac{\theta}{2}}}-\frac{8E^{*4}}{p^{*2}\sin^2{\theta}}+\frac{16p^{*4}\cos^4{\frac{\theta}{2}}+16E^{*4}}{16p^{*4}\sin^4{\frac{\theta}{2}}}\right )</math></center> | + | <center><math>\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \frac{16p^{*4}\sin^4{\frac{\theta}{2}}+16E^{*4}}{16p^{*4}\cos^4{\frac{\theta}{2}}}-\frac{8E^{*4}}{p^{*4}\sin^2{\theta}}+\frac{16p^{*4}\cos^4{\frac{\theta}{2}}+16E^{*4}}{16p^{*4}\sin^4{\frac{\theta}{2}}}\right )</math></center> |
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Revision as of 20:53, 30 December 2018
[math]\underline{\textbf{Navigation}}[/math]
[math]\vartriangleleft [/math]
[math]\triangle [/math]
[math]\vartriangleright [/math]
Differential Cross-Section
[math]\frac{d\sigma}{d\Omega}=\frac{1}{64\pi ^2 s}\frac{\mathbf p_{final}}{\mathbf p_{initial}} |\mathfrak{M} |^2[/math]
Working in the center of mass frame
[math]\mathbf p_{final}=\mathbf p_{initial}[/math]
Determining the scattering amplitude in the center of mass frame
[math]\mathfrak{M}=e^2 \left ( \frac{u-s}{t}+\frac{t-s}{u} \right )[/math]
[math]\mathfrak{M}^2=e^4 \left ( \frac{u-s}{t}+\frac{t-s}{u} \right )\left ( \frac{u-s}{t}+\frac{t-s}{u} \right )[/math]
[math]\mathfrak{M}^2=e^4 \left ( \frac{(u-s)^2}{t^2}+\frac{(t-s)^2}{u^2} +2\frac{(u-s)}{t}\frac{(t-s)}{u}\right )[/math]
[math]\mathfrak{M}^2=e^4 \left ( \frac{(u^2-2us+s^2)}{t^2}+\frac{(t^2-2ts+s^2)}{u^2} +2\frac{(ut-st+s^2-us)}{tu}\right )[/math]
[math]\mathfrak{M}^2=e^4 \left ( \frac{(t^2+s^2)}{u^2}-\frac{2s^2}{tu}+\frac{(u^2+s^2)}{t^2}\right )[/math]
Using the fine structure constant ([math]with\ c=\hbar=\epsilon_0=1[/math])
[math]\alpha \equiv \frac{e^2}{4\pi}[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{2s}\left ( \frac{(t^2+s^2)}{u^2}-\frac{2s^2}{tu}+\frac{(u^2+s^2)}{t^2}\right )[/math]
In the center of mass frame the Mandelstam variables are given by:
[math]s \equiv 4E^{*2}[/math]
[math]t \equiv -2p^{*2}(1-\cos{\theta})=-2p^{*2}\left (1-2\cos^2{\frac{\theta}{2}}+1 \right )=-4p^{*2} \left (1-2\cos^2{\frac{\theta}{2}} \right )=-4p^{*2}\sin^2{\frac{\theta}{2}}[/math]
[math]u \equiv -2p^{*2}(1+\cos{\theta})=-2p^{*2}\left (1+2\cos^2{\frac{\theta}{2}}-1 \right )=-4p^{*2}\cos^2{\frac{\theta}{2}}[/math]
Simplifying using the relationship
[math]\cos{\theta}=-1+\cos{\frac{\theta}{2}}[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \frac{16p^{*4}\sin^4{\frac{\theta}{2}}+16E^{*4}}{16p^{*4}\cos^4{\frac{\theta}{2}}}-\frac{32E^{*4}}{4p^{*2}\sin^2{\frac{\theta}{2}}4p^{*2}\cos^2{\frac{\theta}{2}}}+\frac{16p^{*4}\cos^4{\frac{\theta}{2}}+16E^{*4}}{16p^{*4}\sin^4{\frac{\theta}{2}}}\right )[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \frac{16p^{*4}\sin^4{\frac{\theta}{2}}+16E^{*4}}{16p^{*4}\cos^4{\frac{\theta}{2}}}-\frac{8E^{*4}}{p^{*4}\sin^2{\theta}}+\frac{16p^{*4}\cos^4{\frac{\theta}{2}}+16E^{*4}}{16p^{*4}\sin^4{\frac{\theta}{2}}}\right )[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \frac{16p^{*4}\sin^4{\frac{\theta}{2}}}{16p^{*4}\cos^4{\frac{\theta}{2}}}+\frac{16E^{*4}}{16p^{*4}\cos^4{\frac{\theta}{2}}}-\frac{32E^{*4}}{4p^{*2}}+\frac{16p^{*4}\cos^4{\frac{\theta}{2}}}{16p^{*4}\sin^4{\frac{\theta}{2}}}+\frac{16E^{*4}}{16p^{*4}\sin^4{\frac{\theta}{2}}}\right )[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \frac{16p^{*4}\sin^4{\frac{\theta}{2}}}{16p^{*4}\cos^4{\frac{\theta}{2}}}+\frac{16E^{*4}\sin^4{\frac{\theta}{2}}}{16p^{*4}\cos^4{\frac{\theta}{2}}\sin^4{\frac{\theta}{2}}}-\frac{32E^{*4}}{4p^{*2}}+\frac{16p^{*4}\cos^4{\frac{\theta}{2}}}{16p^{*4}\sin^4{\frac{\theta}{2}}}+\frac{16E^{*4}\cos^4{\frac{\theta}{2}}}{16p^{*4}\sin^4{\frac{\theta}{2}}\cos^4{\frac{\theta}{2}}}\right )[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \tan^4{\frac{\theta}{2}}+\frac{16E^{*4}\sin^4{\frac{\theta}{2}}}{p^{*4}\sin^4{\theta}}-\frac{32E^{*4}}{4p^{*2}}+\cot^4{\frac{\theta}{2}}+\frac{16E^{*4}\cos^4{\frac{\theta}{2}}}{p^{*4}\sin^4{\theta}}\right )[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \tan^4{\frac{\theta}{2}}+\cot^4{\frac{\theta}{2}}-\frac{32E^{*4}}{4p^{*2}}+\frac{16E^{*4}\cos^4{\frac{\theta}{2}}}{p^{*4}\sin^4{\theta}}+\frac{16E^{*4}\sin^4{\frac{\theta}{2}}}{p^{*4}\sin^4{\theta}}\right )[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \tan^4{\frac{\theta}{2}}+\cot^4{\frac{\theta}{2}}-\frac{32E^{*4}}{4p^{*2}}+\frac{4E^{*4}\left(\cos{2\theta}+3\right)}{p^{*4}\sin^4{\theta}}\right )[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \tan^4{\frac{\theta}{2}}+\cot^4{\frac{\theta}{2}}-\frac{32E^{*4}}{4p^{*2}}+\frac{4E^{*4}\cos{2\theta}}{p^{*4}\sin^4{\theta}}+\frac{12E^{*4}}{p^{*4}\sin^4{\theta}} \right)[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \tan^4{\frac{\theta}{2}}+\cot^4{\frac{\theta}{2}}-\frac{8E^{*4}}{p^{*2}}+\frac{4E^{*4}\left(\cos^2{\theta}-\sin^2{\theta}\right)}{p^{*4}\sin^4{\theta}}+\frac{12E^{*4}}{p^{*4}\sin^4{\theta}} \right)[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \frac{\sin^4{\theta}}{\left(\cos{\theta}+1\right)^4}+\frac{\sin^4{\theta}}{\left(\cos{\theta}-1\right)^4}-\frac{8E^{*4}}{p^{*2}}+\frac{4E^{*4}\left(\cos^2{\theta}-\sin^2{\theta}\right)}{p^{*4}\sin^4{\theta}}+\frac{12E^{*4}}{p^{*4}\sin^4{\theta}} \right)[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \frac{\sin^4{\theta}\left(\cos{\theta}-1\right)^4}{\left(\cos{\theta}+1\right)^4\left(\cos{\theta}-1\right)^4}+\frac{\sin^4{\theta}\left(\cos{\theta}+1\right)^4}{\left(\cos{\theta}-1\right)^4\left(\cos{\theta}+1\right)^4}-\frac{8E^{*4}}{p^{*2}}+\frac{4E^{*4}\left(\cos^2{\theta}-\sin^2{\theta}\right)}{p^{*4}\sin^4{\theta}}+\frac{12E^{*4}}{p^{*4}\sin^4{\theta}} \right)[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \frac{\sin^4{\theta}\left(\cos{\theta}-1\right)^4}{\sin^8{\theta}}+\frac{\sin^4{\theta}\left(\cos{\theta}+1\right)^4}{\sin^8{\theta}}-\frac{8E^{*4}}{p^{*2}}+\frac{4E^{*4}\left(\cos^2{\theta}-\sin^2{\theta}\right)}{p^{*4}\sin^4{\theta}}+\frac{12E^{*4}}{p^{*4}\sin^4{\theta}} \right)[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \frac{\left(\cos{\theta}-1\right)^4}{\sin^4{\theta}}+\frac{\left(\cos{\theta}+1\right)^4}{\sin^4{\theta}}-\frac{8E^{*4}}{p^{*2}}+\frac{4E^{*4}\left(\cos^2{\theta}-\sin^2{\theta}\right)}{p^{*4}\sin^4{\theta}}+\frac{12E^{*4}}{p^{*4}\sin^4{\theta}} \right)[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{8E^{*2}}\left( \frac{\left(2\cos^4{\theta}+12\cos^2{\theta}+2 \right)}{\sin^4{\theta}}-\frac{8E^{*4}\sin^4{\theta}}{p^{*2}\sin^4{\theta}}+\frac{4E^{*4}\left(\cos^2{\theta}-\sin^2{\theta}\right)}{p^{*4}\sin^4{\theta}}+\frac{12E^{*4}}{p^{*4}\sin^4{\theta}} \right)[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{4E^{*2}\sin^4{\theta}}\left( \frac{\left(\cos^4{\theta}+6\cos^2{\theta}+1 \right)}{1}-\frac{4E^{*4}\sin^4{\theta}}{p^{*2}}+\frac{2E^{*4}\left(\cos^2{\theta}-\sin^2{\theta}\right)}{p^{*4}}+\frac{6E^{*4}}{p^{*4}} \right)[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{4E^{*2}\sin^4{\theta}}\left( \frac{p^4\left(\cos^4{\theta}+6\cos^2{\theta}+1 \right)}{p^4}-\frac{4E^{*4}p^2\sin^4{\theta}}{p^{*4}}+\frac{2E^{*4}\left(\cos^2{\theta}-\sin^2{\theta}\right)}{p^{*4}}+\frac{6E^{*4}}{p^{*4}} \right)[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{4E^{*2}p^4\sin^4{\theta}}\left( p^4\left(\cos^4{\theta}+6\cos^2{\theta}+1 \right)-4E^{*4}p^2\sin^4{\theta}+2E^{*4}\left(\cos^2{\theta}-\sin^2{\theta}\right)+6E^{*4} \right)[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{4E^{*2}p^4\sin^4{\theta}}\left( p^4\left(\cos^4{\theta}+6\cos^2{\theta}+1 \right)-4E^{*4}p^2\sin^4{\theta}+2E^{*4}\left(1-2\sin^2{\theta}\right)+6E^{*4} \right)[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{4E^{*2}p^4\sin^4{\theta}}\left( p^4\left(\cos^4{\theta}+6\cos^2{\theta}+1 \right)-4E^{*4}\left(p^2\sin^4{\theta}-\sin^2{\theta}+2\right) \right)[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{4E^{*2}p^4\sin^4{\theta}}\left( p^4\left(\cos^4{\theta}+6\cos^2{\theta}+1 \right)-4E^{*4}\left(p^2\sin^4{\theta}-1+\cos^2{\theta}+2\right) \right)[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{4E^{*2}p^4\sin^4{\theta}}\left( p^4\left(\cos^4{\theta}+6\cos^2{\theta}+1 \right)-4E^{*4}\left(p^2\sin^4{\theta}+\cos^2{\theta}+1\right) \right)[/math]
[math]\frac{d\sigma}{d\Omega}=\frac{\alpha ^2}{4E^{*2}p^4\sin^4{\theta}}\left( p^4\left(\cos^4{\theta}+6\cos^2{\theta}+1 \right)-4E^{*4}\left(p^2\left(1-2\cos^2{\theta}+\cos^4{\theta}\right)+\cos^2{\theta}+1\right) \right)[/math]
[math]\therefore E^2\equiv m^2+p^2 [/math]
[math]\underline{\textbf{Navigation}}[/math]
[math]\vartriangleleft [/math]
[math]\triangle [/math]
[math]\vartriangleright [/math]