QPMS README =========== QPMS is a toolkit for frequency-domain simulations of photonic systems consisting of compact objects (particles) inside a homogeneous medium. Scattering properties of the individual particles are described by their T-matrices (which can be obtained e.g. with the `scuff-tmatrix` tool from the [SCUFF-EM] suite). QPMS handles the multiple scattering of electromagnetic radiation between the particles. The system can consist either of a finite number of particles or an infinite number of periodically arranged lattices (with finite number of particles in a single unit cell). Features ======== Finite systems -------------- * Computing multipole excitations *and fields (TODO)* scattered from nanoparticle clusters illuminated by plane, spherical or *cylindrical (TODO)* waves. * Finding eigenmodes. * *Calculating cross sections (TODO).* * Reducing numerical complexity of the computations by exploiting symmetries of the cluster (decomposition to irreducible representations). Infinite systems (lattices) --------------------------- * 2D-periodic systems supported. (TODO 1D and 3D.) * *Calculation of transmission and reflection properties (TODO).* * Finding eigenmodes and calculating dispersion relations. * *Calculation of far-field radiation patterns of an excited array (TODO).* * Reducing numerical complexity of the computations by exploiting symmetries of the lattice (decomposition to irreducible representations). Installation ============ The package depends on several python modules, a BLAS/LAPACK library with the respective C bindings (incl. the `lapacke.h` and `cblas.h` headers; [OpenBLAS][OpenBLAS] does have it all and is recommended) and GSL (>= 2.0). The python module dependencies should be installed automatically when running the installation script. If you have a recent enough OS, you can get GSL easily from the repositories; on Debian and derivatives, just run `apt-get install libgsl-dev` under root. Alternatively, you can [get the source and compile it yourself][GSL]. You also need a fresh enough version of [cmake][]. After GSL is installed, you can install qpms to your local python library using ```{.sh} cmake -DCMAKE_INSTALL_PREFIX=${YOUR_PREFIX} . make install python3 setup.py install --user ``` Above, replace `${YOUR_PREFIX}` with the path to where you want to install the shared library; you will also need to make sure that the linker can find it; on Linux, this means the path `${YOUR_PREFIX}/lib` is included in your `LIBRARY_PATH` and `LD_LIBRARY_PATH` environment variables. The same applies to the GSL and OpenBLAS dependencies: they must be installed where the installation scripts and linker can find them (setting the `C_INCLUDE_PATH` environment variable might be necessary as well). Special care might need to be taken when installing QPMS in cluster environments. Specific installation instructions for Aalto University's Triton cluster can be found in a [separate document][TRITON-README]. Documentation ============= Documentation of QPMS is a work in progress. Most of the newer code is documented using [doxygen][] comments. To build the documentation, just run `doxygen` in the root directory; the documentation will then be found in `docs/html/index.html`. Of course, the prerequisite of this is having doxygen installed. If you don't, you will probably find it easily in your OS's repositories. On Debian and derivatives, simply run `apt-get install doxygen` under root. Tutorials --------- * [Infinite system (lattice) tutorial][tutorial-infinite] * [Finite system tutorial][tutorial-finite] [SCUFF-EM]: https://homerreid.github.io/scuff-em-documentation/ [OpenBLAS]: https://www.openblas.net/ [GSL]: https://www.gnu.org/software/gsl/ [cmake]: https://cmake.org [TRITON-README]: README.Triton.md [tutorial-finite]: finite_systems.md [tutorial-infinite]: lattices.md [doxygen]: http://doxygen.nl/