#LyX 2.1 created this file. For more info see http://www.lyx.org/ \lyxformat 474 \begin_document \begin_header \textclass article \use_default_options true \maintain_unincluded_children false \language finnish \language_package default \inputencoding auto \fontencoding global \font_roman TeX Gyre Pagella \font_sans default \font_typewriter default \font_math auto \font_default_family default \use_non_tex_fonts true \font_sc false \font_osf true \font_sf_scale 100 \font_tt_scale 100 \graphics default \default_output_format pdf4 \output_sync 0 \bibtex_command default \index_command default \paperfontsize default \spacing single \use_hyperref true \pdf_author "Marek Nečada" \pdf_bookmarks true \pdf_bookmarksnumbered false \pdf_bookmarksopen false \pdf_bookmarksopenlevel 1 \pdf_breaklinks false \pdf_pdfborder false \pdf_colorlinks false \pdf_backref false \pdf_pdfusetitle true \papersize default \use_geometry false \use_package amsmath 1 \use_package amssymb 1 \use_package cancel 1 \use_package esint 1 \use_package mathdots 1 \use_package mathtools 1 \use_package mhchem 1 \use_package stackrel 1 \use_package stmaryrd 1 \use_package undertilde 1 \cite_engine basic \cite_engine_type default \biblio_style plain \use_bibtopic false \use_indices false \paperorientation portrait \suppress_date false \justification true \use_refstyle 1 \index Index \shortcut idx \color #008000 \end_index \secnumdepth 3 \tocdepth 3 \paragraph_separation indent \paragraph_indentation default \quotes_language swedish \papercolumns 1 \papersides 1 \paperpagestyle default \tracking_changes false \output_changes false \html_math_output 0 \html_css_as_file 0 \html_be_strict false \end_header \begin_body \begin_layout Section Finite systems \end_layout \begin_layout Itemize \lang english motivation (classes of problems that this can solve: response to external radiation, resonances, ...) \end_layout \begin_deeper \begin_layout Itemize \lang english theory \end_layout \begin_deeper \begin_layout Itemize \lang english T-matrix definition, basics \end_layout \begin_deeper \begin_layout Itemize \lang english How to get it? \end_layout \end_deeper \begin_layout Itemize \lang english translation operators (TODO think about how explicit this should be, but I guess it might be useful to write them to write them explicitly (but in the shortest possible form) in the normalisation used in my program) \end_layout \begin_layout Itemize \lang english employing point group symmetries and decomposing the problem to decrease the computational complexity (maybe separately) \end_layout \end_deeper \end_deeper \begin_layout Subsection \lang english Motivation \end_layout \begin_layout Subsection \lang english Single-particle scattering \end_layout \begin_layout Standard In order to define the basic concepts, let us first consider the case of EM radiation scattered by a single particle. We assume that the scatterer lies inside a closed sphere \begin_inset Formula $\particle$ \end_inset , the space outside this volume \begin_inset Formula $\medium$ \end_inset is filled with an homogeneous isotropic medium with relative electric permittiv ity \begin_inset Formula $\epsilon(\vect r,\omega)=\epsbg(\omega)$ \end_inset and magnetic permeability \begin_inset Formula $\mu(\vect r,\omega)=\mubg(\omega)$ \end_inset , and that the whole system is linear, i.e. the material properties of neither the medium nor the scatterer depend on field intensities. Under these assumptions, the EM fields in \begin_inset Formula $\medium$ \end_inset must satisfy the homogeneous vector Helmholtz equation \begin_inset Formula $\left(\nabla^{2}+k^{2}\right)\Psi\left(\vect r,\vect{\omega}\right)=0$ \end_inset \begin_inset Note Note status open \begin_layout Plain Layout todo define \begin_inset Formula $\Psi$ \end_inset , mention transversality \end_layout \end_inset with \begin_inset Formula $k=TODO$ \end_inset [TODO REF Jackson?]. Its solutions (TODO under which conditions? What vector space do the SVWFs actually span? Check Comment 9.2 and Appendix f.9.1 in Kristensson) \end_layout \begin_layout Standard \lang english Throughout this text, we will use the same normalisation conventions as in \begin_inset CommandInset citation LatexCommand cite key "kristensson_scattering_2016" \end_inset . \end_layout \begin_layout Subsubsection \lang english Spherical waves \end_layout \begin_layout Standard \lang english \begin_inset Note Note status open \begin_layout Plain Layout \lang english TODO small note about cartesian multipoles, anapoles etc. (There should be some comparing paper that the Russians at META 2018 mentioned.) \end_layout \end_inset \end_layout \begin_layout Subsubsection \lang english T-matrix definition \end_layout \begin_layout Subsubsection Absorbed power \end_layout \begin_layout Subsubsection \lang english T-matrix compactness, cutoff validity \end_layout \begin_layout Subsection \lang english Multiple scattering \end_layout \begin_layout Subsubsection \lang english Translation operator \end_layout \begin_layout Subsubsection \lang english Numerical complexity, comparison to other methods \end_layout \end_body \end_document