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Output example: Field distribution inside layered Si\Ag\Si sphere and Poynting vector distribution in Ag sphere with powerflow lines calculated with Scattnlay (scripts field-SiAgSi-flow.py and field-Ag-flow.py from example section as revision ).

Discuss:

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Stable releases

Version 2.0.1 (Jan 17, 2017).
Version 2.0.0 (Apr 1, 2016).
Version 1.0.0 (Nov 22, 2014).

How to use scattnlay

Table of contents:

Mie theory calculator web application
Compile code
Binary install
Use
Papers
Acknowledgment
License

Mie theory calculator web application

Limited web version is available at https://physics.ifmo.ru/mie/

Compile Code

To compile the source you will need a C++11 capable compiler. To use MultiPrecision feature you need to install Boost.Multiprecision library:

libboost-all-dev (>= 1.58.0)

To compile the Python extension you need NumPy:

python-numpy (>= 1.0)
python-all-dev (any version)
python-numpy-dev (any version)
pybind11 (any version)

And to compile the Debian package you need some tools:

debhelper (>=7.0.0)
dh-python (any version)
cdbs (>= 0.4.49)

Compilation options

make source - Create source package for Python extension
make ext - Create Python extension using C++ code
make install - Install Python extension on local system
make rpm - Generate a rpm package for Python extension
make deb - Generate a deb package for Python extension
make standalone - Create standalone programs (scattnlay and fieldnlay)
make clean - Delete temporal files

Binary install

Binary files for Ubuntu and derivative distributions can be found at Launchpad To install it you must configure the repository:

sudo add-apt-repository ppa:ovidio/scattering
sudo apt update

and then you simply install the package:

sudo apt install python-scattnlay

You can also install it from PyPi via

sudo pip install python-scattnlay

You can also git clone and pip install -e . to develop python package.

Use

Python library
- Use scattnlay directly

from scattnlay import scattnlay, fieldnlay
...
x = ...
m = ...
coords = ...
terms, Qext, Qsca, Qabs, Qbk, Qpr, g, Albedo, S1, S2 = scattnlay(x, m)
terms, E, H = fieldnlay(x, m, coords)
...

Execute some of the test scripts (located in the folder 'tests/python') Example:

./test01.py

Standalone program
- Execute scattnlay directly:

scattnlay -l Layers x1 m1.r m1.i [x2 m2.r m2.i ...] [-t ti tf nt] [-c comment]

Execute fieldnlay directly:

fieldnlay -l Layers x1 m1.r m1.i [x2 m2.r m2.i ...] -p xi xf nx yi yf ny zi zf nz [-c comment]

Execute some of the test scripts (located in the folder 'tests/shell'):

./test01.sh > test01.csv

C++ library

Scattnlay "Hello world!" example:

    try {
      nmie::MultiLayerMieApplied<double> multi_layer_mie; 
      multi_layer_mie.AddTargetLayer(core_width, index_Si);
      multi_layer_mie.AddTargetLayer(inner_width, index_Ag);
      multi_layer_mie.AddTargetLayer(outer_width, index_Si);
      multi_layer_mie.SetWavelength(WL);
      multi_layer_mie.RunMieCalculation();
      double Qabs = multi_layer_mie.GetQabs();
      printf("Qabs = %g\n", Qabs);
    } catch( const std::invalid_argument& ia ) {
      // Will catch if  multi_layer_mie fails or other errors.
      std::cerr << "Invalid argument: " << ia.what() << std::endl;
      return -1;
    }

The complete example-minimal.cc and a bit more complicated example-get-Mie.cc can be found in example directory along with go-cc-examples.sh script with build commands.

example-get-Mie.cc can be compiled using double precision or multiple precision (just include -DMULTI_PRECISION=200 to use 200 digits for calculations).

Acknowledgment

We expect that all publications describing work using this software, or all commercial products using it, cite at least one of the following references:

[1] O. Peña and U. Pal, "Scattering of electromagnetic radiation
by a multilayered sphere," Computer Physics Communications,
vol. 180, Nov. 2009, pp. 2348-2354.
[2] K. Ladutenko, U. Pal, A. Rivera and O. Peña-Rodríguez, "Mie calculation
of electromagnetic near-field for a multilayered sphere,"
Computer Physics Communications, vol. 214, May 2017, pp. 225-230.

License

GPL v3+

README.md