Metadata-Version: 1.0
Name: hankel
Version: 0.3.6
Summary: Hankel Transformations using method of Ogata 2005
Home-page: https://github.com/steven-murray/hankel
Author: Steven Murray
Author-email: steven.murray@curtin.edu.au
License: MIT
Description: hankel
        ======
        
        .. image:: https://travis-ci.org/steven-murray/hankel.svg?branch=master
           :target: https://travis-ci.org/steven-murray/hankel
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        .. image:: https://img.shields.io/pypi/v/hankel.svg
        
        
        Perform simple and accurate Hankel transformations using the method of
        Ogata 2005.
        
        Hankel transforms and integrals are commonplace in any area in which
        Fourier Transforms are required over fields that
        are radially symmetric (see
        `Wikipedia <https://en.wikipedia.org/wiki/Hankel_transform>`_ for a
        thorough description).
        They involve integrating an arbitrary function multiplied by a Bessel
        function of arbitrary order (of the first kind).
        Typical integration schemes often fall over because of the highly
        oscillatory nature of the transform. Ogata's
        quadrature method used in this package provides a fast and accurate
        way of performing the integration based on
        locating the zeros of the Bessel function.
        
        Quicklinks
        ----------
        
        - **Documentation:** `<https://hankel.readthedocs.io>`_
        - **Quickstart+Description:** `Getting Started <https://hankel.readthedocs.io/en/latest/demos/getting_started.html>`_
        
        Installation
        ------------
        Either clone the repository at github.com/steven-murray/hankel and use
        ``python setup.py install``, or simply install
        using ``pip install hankel``.
        
        The only dependencies are `numpy <www.numpy.org>`_, `scipy <www.scipy.org>`_ and `mpmath <www.mpmath.org>`_ (as of v0.2.0).
        
        Features
        --------
        
        -  Accurate and fast solutions to many Hankel integrals
        -  Easy to use and re-use
        -  Arbitrary order transforms
        -  Built-in support for radially symmetric Fourier Transforms
        
        
        References
        ----------
        
        Based on the algorithm provided in
        
            H. Ogata, A Numerical Integration Formula Based on the Bessel
            Functions, Publications of the Research Institute for Mathematical
            Sciences, vol. 41, no. 4, pp. 949-970, 2005.
        
        Also draws inspiration from
        
            Fast Edge-corrected Measurement of the Two-Point Correlation
            Function and the Power Spectrum Szapudi, Istvan; Pan, Jun; Prunet,
            Simon; Budavari, Tamas (2005) The Astrophysical Journal vol. 631 (1)
Platform: UNKNOWN
