Mie scattering coefficients, might be wrong...
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@ -428,6 +428,30 @@ These expansions should be OK in SI units (take the Fourier transform of
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\end_inset
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\end_inset
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Note that
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\begin_inset Formula $k/\omega\mu=\sqrt{\varepsilon_{r}\varepsilon_{0}/\mu_{r}\mu_{0}}=1/\eta_{r}\eta_{0}.$
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\end_inset
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The
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\begin_inset Quotes eld
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\end_inset
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factor
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\begin_inset Quotes erd
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\end_inset
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\begin_inset Formula $H/E$
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\end_inset
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is thus
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\begin_inset Formula $-ik/\omega\mu=-i\sqrt{\varepsilon_{r}\varepsilon_{0}/\mu_{r}\mu_{0}}$
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\end_inset
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, which is important in determining the Mie coefficients.
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\end_layout
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\begin_layout Standard
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The common multipole-dependent factor is given by
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The common multipole-dependent factor is given by
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\begin_inset Formula
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\begin_inset Formula
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\[
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\[
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@ -524,8 +548,8 @@ key "xu_electromagnetic_1995"
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\begin_inset Formula
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\begin_inset Formula
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\begin{alignat*}{1}
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\begin{alignat*}{1}
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a_{mn}^{j} & =a_{n}^{j}p_{mn}^{j},\quad b_{mn}^{j}=b_{n}^{j}q_{mn}^{j},\\
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a_{mn}^{j} & =R_{n}^{V}p_{mn}^{j},\quad b_{mn}^{j}=R_{n}^{H}q_{mn}^{j},\\
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c_{mn}^{j} & =c_{n}^{j}q_{mn}^{j},\quad d_{mn}^{j}=d_{n}^{j}p_{mn}^{j},
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c_{mn}^{j} & =T_{n}^{H}q_{mn}^{j},\quad d_{mn}^{j}=T_{n}^{V}p_{mn}^{j},
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\end{alignat*}
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\end{alignat*}
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\end_inset
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\end_inset
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@ -541,6 +565,57 @@ in other words, the Mie coefficients do not depend on
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(which is not surprising and probably follows from the Wigner-Eckart theorem).
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(which is not surprising and probably follows from the Wigner-Eckart theorem).
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\end_layout
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\end_layout
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\begin_layout Standard
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Respecting the conventions for decomposition in the previous section (i.e.
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there is opposite sign in the scattered part), the reflection and
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\begin_inset Quotes eld
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\end_inset
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transmission
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\begin_inset Quotes erd
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\end_inset
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coefficients become (adopted from
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\begin_inset CommandInset citation
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LatexCommand cite
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after "(4.52--53)"
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key "bohren_absorption_1983"
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\end_inset
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\begin_inset Formula
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\begin{eqnarray*}
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R_{n}^{V} & =\frac{a_{n}}{p_{n}}= & \frac{\mu_{e}m^{2}z^{i}ž^{e}-\mu_{i}z^{e}ž^{i}}{\mu_{e}m^{2}z^{i}ž^{s}-\mu_{i}z^{s}ž^{i}}\\
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R_{n}^{H} & =\frac{b_{n}}{q_{n}}= & \frac{\mu_{i}z^{i}ž^{e}-\mu_{e}z^{e}ž^{i}}{\mu_{i}z^{i}ž^{s}-\mu_{e}z^{s}ž^{i}}\\
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T_{n}^{V} & =\frac{d_{n}}{p_{n}}= & \frac{\mu_{i}mz^{e}ž^{s}-\mu_{i}mz^{s}ž^{e}}{\mu_{e}m^{2}z^{i}ž^{s}-\mu_{i}z^{s}ž^{i}}\\
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T_{n}^{H} & =\frac{c_{n}}{q_{n}}= & \frac{\mu_{i}z^{e}ž^{s}-\mu_{i}z^{s}ž^{e}}{\mu_{i}z^{i}ž^{s}-\mu_{e}z^{s}ž^{i}}
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\end{eqnarray*}
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\end_inset
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where
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\begin_inset Formula $\mu_{i}|\mu_{e}$
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\end_inset
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is (absolute) permeability of the sphere|envinronment,
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\begin_inset Formula $m=k_{i}/k_{e}=\sqrt{\mu_{i}\varepsilon_{i}/\mu_{e}\varepsilon_{e}}$
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\end_inset
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, and
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\begin_inset Formula
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\begin{eqnarray*}
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z^{i} & = & z_{n}^{(J_{i}=1)}(k_{i}R)=j_{n}(k_{i}R),\\
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z^{e} & = & z_{n}^{(J_{e})}(k_{e}R),\\
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z^{s} & = & z_{n}^{(J_{s})}(k_{e}R),\\
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ž^{i/e/s} & = & \frac{\ud(k_{i/e/e}R\cdot z_{n}^{(J_{i/e/e})}(k_{i/e/e}R)}{\ud(k_{i/e/e}R)}.
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\end{eqnarray*}
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\end_inset
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\end_layout
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\begin_layout Subsubsection
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\begin_layout Subsubsection
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Translation coefficients
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Translation coefficients
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\end_layout
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\end_layout
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@ -1296,8 +1371,8 @@ Scattering-Taylor.ipynb
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\end_layout
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\end_layout
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\begin_layout Standard
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\begin_layout Standard
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In the conventions used (no Condon-Shortley phase AFAIK), the following
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In the conventions used in the code and the corresponding libraries, the
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symmetries hold for
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following symmetries hold for
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\begin_inset Formula $J=1$
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\begin_inset Formula $J=1$
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\end_inset
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\end_inset
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