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dft_tools/doc/index.rst
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.. _welcome:
Welcome
=======
TRIQS is a scientific project that provides a set of tools for the study of
interacting quantum systems. It allows to quickly implement many-body
calculations and explore new theoretical and phenomenological ideas within a
flexible, easy-to-use python environment (à la Matlab).
Powerful c++ libraries
----------------------
.. code-block:: c++
#include <triqs/arrays.hpp>
#include <triqs/arrays/linalg/inverse.hpp>
#include <triqs/arrays/linalg/determinant.hpp>
using triqs::arrays::array; using triqs::arrays::matrix; using triqs::clef::placeholder;
int main(){
placeholder<0> i_;
placeholder<1> j_;
matrix<double> A(2,2);
A(i_,j_) << i_+j_;
matrix<double> B = inverse(A);
double C = determinant(A);
std::cout << "A^(-1) = "<< B << std::endl;
std::cout << "det(A) = " <<C <<std::endl;
}
User-friendly python interface
------------------------------
.. plot::
:include-source:
:scale: 70
from pytriqs.gf.local import *
g = GfReFreq(indices = ['s','d'], window = [-2,2], n_points = 1000)
g['d','d'] = Omega - 0.3
g['d','s'] = 0.2
g['s','d'] = 0.2
g['s','s'] = inverse( Wilson(1.0) )
g.invert()
from pytriqs.plot.mpl_interface import oplot
oplot( g['d','d'], '-o', RI = 'S', x_window = (-1.8,1.8), name = "Impurity" )
oplot( g['s','s'], '-x', RI = 'S', x_window = (-1.8,1.8), name = "Bath" )