Metadata-Version: 1.1
Name: yellowhiggs
Version: 1.0a4
Summary: Interface for the CERN Yellow Report
Home-page: https://end.web.cern.ch/end/projects/yellowhiggs/
Author: Noel Dawe
Author-email: noel.dawe@cern.ch
License: GPLv3
Download-URL: http://pypi.python.org/packages/source/y/yellowhiggs/yellowhiggs-1.0a4.tar.gz
Description: .. -*- mode: rst -*-
        
        About
        -----
        
        yellowhiggs provides an interface with Higgs production cross section and branching ratio data in the
        CERN Yellow Report:
        
        * `CERNYellowReportPageAt7TeV <https://twiki.cern.ch/twiki/bin/view/LHCPhysics/CERNYellowReportPageAt7TeV>`_
        * `CERNYellowReportPageAt8TeV <https://twiki.cern.ch/twiki/bin/view/LHCPhysics/CERNYellowReportPageAt8TeV>`_
        * `CERNYellowReportPageAt14TeV <https://twiki.cern.ch/twiki/bin/view/LHCPhysics/CERNYellowReportPageAt14TeV>`_
        * `CERNYellowReportPageBR <https://twiki.cern.ch/twiki/bin/view/LHCPhysics/CERNYellowReportPageBR>`_
        
        
        Automatic Installation
        ----------------------
        
        Automatically install the latest version of yellowhiggs with
        `pip <http://pypi.python.org/pypi/pip>`_::
        
            pip install --user yellowhiggs
        
        or with ``easy_install``::
        
            easy_install --user yellowhiggs
        
        Omit the ``--user`` for a system-wide installation (requires root privileges).
        
        To upgrade an existing installation use the ``-U``
        option in the ``pip`` or ``easy_install`` commands above.
        
        
        Manual Installation
        -------------------
        
        Get the latest tarball on `PyPI <http://pypi.python.org/pypi/yellowhiggs/>`_
        
        Untar and install (replace X appropriately)::
        
           tar -zxvf yellowhiggs-X.tar.gz
           cd yellowhiggs-X
        
        To install yellowhiggs into your home directory
        if using at least Python 2.6::
        
           python setup.py install --user
        
        or with older Python versions::
        
           python setup.py install --prefix=~/.local
        
        You might need to first create the installation directory
        before executing the line above (for Python 2.4)::
        
           mkdir -p ~/.local/lib/python2.4/site-packages/
        
        
        Usage
        -----
        
        An example of how to use yellowhiggs::
        
           >>> import yellowhiggs
           >>> 
           >>> yellowhiggs.xsbr(7, 130, 'vbf', 'bb')
           (0.5689219999999999, (0.584851816, 0.555836794))
           >>> yellowhiggs.xsbr(7, 130, 'vbf', 'bb', error_type='percent')
           (0.5689219999999999, (2.8, 2.3))
           >>> yellowhiggs.xsbr(7, 130, 'vbf', 'bb', error_type='factor')
           (0.5689219999999999, (1.028, 0.977))
           >>> 
           >>> yellowhiggs.xsbr(7, 130, 'vbf', 'tautau')
           (0.0632392, (0.0650098976, 0.06178469839999999))
           >>> 
           >>> yellowhiggs.xsbr(7, 125, 'ggf', 'gammagamma')
           (0.0350599, (0.0418965805, 0.0297658551))
           >>> yellowhiggs.xsbr(7, 125, 'ggf', 'gammagamma', error='scale')
           (0.0350599, (0.0391619083, 0.0323252278))
           >>> yellowhiggs.xsbr(7, 125, 'ggf', 'gammagamma', error='pdf')
           (0.0350599, (0.0377945722, 0.0325005273))
           >>> yellowhiggs.xsbr(7, 125, 'ggf', 'gammagamma', error='full')
           (0.0350599, (0.0418965805, 0.0297658551))
           >>> yellowhiggs.xsbr(7, 125, 'ggf', 'gammagamma', error='pdf', error_type='percent')
           (0.0350599, (7.8, 7.3))
           >>> 
           >>> yellowhiggs.xs(7, 150, 'vbf')
           (0.9617, (0.9895892999999999, 0.9405426))
           >>> yellowhiggs.xs(7, 150, 'vbf', error_type='percent')
           (0.9617, (2.9, 2.2))
           >>> 
           >>> yellowhiggs.br(150, 'tautau')
           0.0178
           >>> yellowhiggs.br(155, 'tautau')
           0.0105
        
        Cross sections are returned in units of [pb].
        
        * `xs` returns the (central cross section, (high error, low error)) for a
          center-of-mass energy [TeV], Higgs mass [GeV], and production mode.
        
        * `br` returns the branching ratio for a Higgs mass [GeV] and decay channel.
        
        * `xsbr` returns the cross section times branching ratio for a center-of-mass
          energy [TeV], Higgs mass [GeV], production mode, and decay channel.
        
Platform: UNKNOWN
Classifier: Programming Language :: Python
Classifier: Topic :: Utilities
Classifier: Operating System :: POSIX :: Linux
Classifier: Development Status :: 3 - Alpha
Classifier: Intended Audience :: Science/Research
Classifier: Intended Audience :: Developers
Classifier: License :: OSI Approved :: GNU General Public License (GPL)
