Difference between revisions of "Variables Used in Elastic Scattering"
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where
represents the 4-Momentum Vector in the CM frame and
represents the 4-Momentum Vector in the initial Lab frame
where
represents the 4-Momentum Vector in the final Lab frameand
represents the 4-Momentum Vector in the final CM frame
Line 84: | Line 84: | ||
Finding the cross terms, | Finding the cross terms, | ||
− | <center><math>{\mathbf P_1^*}\cdot {\mathbf P^{'*}}=\left(\begin{matrix} E_1^*\\ p_{1(x)}^* \\ p_{1(y)}^* \\ p_1(z)}^* \end{matrix} \right)\cdot \left( \begin{matrix}1 & 0 & 0 & 0\\0 & -1 & 0 & 0\\0 & 0 & -1 & 0\\0 &0 & 0 &-1\end{matrix} \right)\cdot \left(\begin{matrix} E^{'*} & p_{1(x)}^{'*} & p_{1(y)}^{'*} & p_{1(z)^{'*} \end{matrix} \right)=E_1^*E_1^{'*}-\vec p_1^*\cdot \vec p_1^{'*} </math></center> | + | <center><math>{\mathbf P_1^*}\cdot {\mathbf P^{'*}}=\left(\begin{matrix} E_1^*\\ p_{1(x)}^* \\ p_{1(y)}^* \\ p_1(z)}^* \end{matrix} \right)\cdot \left( \begin{matrix}1 & 0 & 0 & 0\\0 & -1 & 0 & 0\\0 & 0 & -1 & 0\\0 &0 & 0 &-1\end{matrix} \right)\cdot \left(\begin{matrix} E^{'*} & p_{1(x)}^{'*} & p_{1(y)}^{'*} & p_{1(z)}^{'*} \end{matrix} \right)=E_1^*E_1^{'*}-\vec p_1^*\cdot \vec p_1^{'*} </math></center> |
=Mandelstam Representation= | =Mandelstam Representation= | ||
[[File:Mandelstam.png | 400 px]] | [[File:Mandelstam.png | 400 px]] |
Revision as of 23:44, 31 January 2016
Lorentz Invariant Quantities
Total 4-Momentums
As was shown earlier the scalar product of a 4-Momentum vector with itself ,
,
and the length of a 4-Momentum vector composed of 4-Momentum vectors,
,
are invariant quantities.
It was further shown that
which can be expanded to
New 4-Momentum Quantities
Working in just the CM frame, we can form new 4-Momentum Vectors comprised of 4-Momenta in this frame, with
Using the algebraic fact
and the fact that the length of these 4-Momentum Vectors are invariant,
Using the fact that the scalar product of a 4-momenta with itself is invariant,
We can simiplify the expressions
Finding the cross terms,