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<H2><A NAME="SECTION00032000000000000000">
Dielectric wakefields</A>
</H2>

<P>
Investigated as new collective acceleration methods (Park,
Hirshfield (2000))

<P>
Usual approach is similar to resistive wakes - field matching
technique on boundaries

<P>
The difference is that we don't need to count energy loss in the
walls but have waves with different speed in different media.

<P>
<BR><P></P>
<DIV ALIGN="CENTER">
<!-- MATH
 \begin{displaymath}
\begin{array}{l}
 \left( {\begin{array}{*{20}c}
   {E_z (r,s)}  \\
   {E_r (r,s)}  \\
   {E_\theta  (r,s)}  \\
\end{array}} \right) =  - 2q\sum\limits_{l = 0}^\infty  {\sum\limits_{n = 1}^\infty  {\frac{1}{{C_n }}} } \left( {\frac{{r_0 }}{{R_1 }}} \right)^l  \times \left( {\begin{array}{*{20}c}
   {\left( {\frac{r}{{R_1 }}} \right)^l g_{z,n}^0 (s)\cos l\theta }  \\
   {l\left( {\frac{r}{{R_1 }}} \right)^{l - 1} g_{t,n}^0 (s)\cos l\theta }  \\
   { - l\left( {\frac{{r_0 }}{{R_1 }}} \right)^l g_{t,n}^0 (s)\sin l\theta }  \\
\end{array}} \right) \\
 \left( {\begin{array}{*{20}c}
   {g_{z,n}^0 (s)}  \\
   {g_{t,n}^0 (s)}  \\
\end{array}} \right) = \left( {\begin{array}{*{20}c}
   {\cos k_n^{} s}  \\
   {\sin k_n^{} s}  \\
\end{array}} \right)\Theta ( - s) \\
 \end{array}
\end{displaymath}
 -->

<IMG
 WIDTH="500" HEIGHT="152" BORDER="0"
 SRC="img34.gif"
 ALT="\begin{displaymath}
\begin{array}{l}
\left( {\begin{array}{*{20}c}
{E_z (r,s)}...
..._n^{} s} \\
\end{array}} \right)\Theta ( - s) \\
\end{array}\end{displaymath}">
</DIV>
<BR CLEAR="ALL">
<P></P>

<P>
Cn-normalization constant that can be received by orthonormality
relation and from the source currents.

<P>
<BR><HR>
<ADDRESS>
german_kourevlev
2006-01-19
</ADDRESS>
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