diff --git a/lepaper/examples.lyx b/lepaper/examples.lyx index c807567..056c0d1 100644 --- a/lepaper/examples.lyx +++ b/lepaper/examples.lyx @@ -469,9 +469,7 @@ sideways false status open \begin_layout Plain Layout -\begin_inset Caption Standard - -\begin_layout Plain Layout +\align center \begin_inset Graphics filename figs/beyn_lMax_cutoff_Au_sphere.pdf width 100text% @@ -479,10 +477,9 @@ status open \end_inset -\end_layout - -\end_inset +\begin_inset Caption Standard +\begin_layout Plain Layout Consequences of multipole degree cutoff: Eigenfrequencies found with Beyn's algorithm for an infinite square lattice of golden spherical nanoparticles with varying particle size. @@ -498,8 +495,13 @@ name "square lattice var lMax, r at gamma point Au" \end_inset +\end_layout + +\end_inset + + \begin_inset Note Note -status open +status collapsed \begin_layout Plain Layout \begin_inset Float figure diff --git a/lepaper/figs/hex/pokus.svg b/lepaper/figs/hex/pokus.svg new file mode 100644 index 0000000..298797e --- /dev/null +++ b/lepaper/figs/hex/pokus.svg @@ -0,0 +1,1629 @@ + + + +image/svg+xml \ No newline at end of file diff --git a/lepaper/infinite.lyx b/lepaper/infinite.lyx index 25d2195..0c84cae 100644 --- a/lepaper/infinite.lyx +++ b/lepaper/infinite.lyx @@ -768,7 +768,16 @@ empty \begin_inset Formula $\gamma(z)$ \end_inset - as defined in + if the branch is selected to be continuous for +\begin_inset Formula $-3\pi/2<\arg\left(z-1\right)<\pi/2$ +\end_inset + + +\begin_inset Note Note +status open + +\begin_layout Plain Layout +as defined in \begin_inset CommandInset ref LatexCommand eqref reference "eq:lilgamma_old" @@ -776,6 +785,11 @@ plural "false" caps "false" noprefix "false" +\end_inset + + +\end_layout + \end_inset (blue, circular shape). @@ -1415,11 +1429,11 @@ FP: check sign of \begin{multline} \sigma_{l,m}^{\left(\mathrm{L},\eta\right)}\left(\vect k,\vect s\right)=-\frac{i^{l+1}}{\kappa^{2}\mathcal{A}}\pi^{3/2}2\left(\left(l-m\right)/2\right)!\left(\left(l+m\right)/2\right)!\times\\ \times\sum_{\vect K\in\Lambda^{*}}\underbrace{e^{i\vect K\cdot\vect s}}_{\text{nemá tu být \ensuremath{\vect{k\cdot s}?}}}\ush lm\left(\vect k+\vect K\right)\sum_{j=0}^{l-\left|m\right|}\left(-1\right)^{j}\left(\gamma\left(\left|\vect k+\vect K\right|/\kappa\right)\right)^{2j+1}\Delta_{j}\left(\frac{\kappa^{2}\gamma\left(\left|\vect k+\vect K\right|/\kappa\right)^{2}}{4\eta^{2}},-i\kappa\gamma\left(\left|\vect k+\vect K\right|/\kappa\right)s_{\perp}\right)\times\\ -\times\sum_{\begin{array}{c} -s\\ +\times\sum_{\substack{s\\ j\le s\le\min\left(2j,l-\left|m\right|\right)\\ l-n+\left|m\right|\,\mathrm{even} -\end{array}}\frac{1}{\left(2j-s\right)!\left(s-j\right)!}\frac{\left(-\kappa s_{\perp}\right)^{2j-s}\left(\left|\vect k+\vect K\right|/\kappa\right)^{l-s}}{\left(\frac{1}{2}\left(l-m-s\right)\right)!\left(\frac{1}{2}\left(l+m-s\right)\right)!}\label{eq:Ewald in 3D long-range part 1D 2D} +} +}\frac{1}{\left(2j-s\right)!\left(s-j\right)!}\frac{\left(-\kappa s_{\perp}\right)^{2j-s}\left(\left|\vect k+\vect K\right|/\kappa\right)^{l-s}}{\left(\frac{1}{2}\left(l-m-s\right)\right)!\left(\frac{1}{2}\left(l+m-s\right)\right)!}\label{eq:Ewald in 3D long-range part 1D 2D} \end{multline} \end_inset diff --git a/lepaper/symmetries.lyx b/lepaper/symmetries.lyx index e1eeb65..fb3e723 100644 --- a/lepaper/symmetries.lyx +++ b/lepaper/symmetries.lyx @@ -1505,7 +1505,7 @@ status open \begin_layout Plain Layout Representing symmetry action on electromagnetic Bloch waves in a lattice - with + with \begin_inset Formula $p6m$ \end_inset