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HEJ 2.2.2
High energy resummation for hadron colliders
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Class to calculate the squares of matrix elements. More...
#include <MatrixElement.hh>
Public Member Functions | |
| MatrixElement (std::function< double(double)> alpha_s, MatrixElementConfig conf) | |
| MatrixElement Constructor. More... | |
| Weights | operator() (Event const &event) const |
| squares of regulated HEJ matrix elements More... | |
| Weights | tree (Event const &event) const |
| Squares of HEJ tree-level matrix elements. More... | |
| std::vector< Weights > | virtual_corrections (Event const &event) const |
| Virtual corrections to matrix element squares. More... | |
| Weights | tree_param (Event const &event) const |
| Scale-dependent part of tree-level matrix element squares. More... | |
| std::vector< double > | tree_kin (Event const &event) const |
| Kinematic part of tree-level matrix element squares. More... | |
Detailed Description
Class to calculate the squares of matrix elements.
Constructor & Destructor Documentation
◆ MatrixElement()
| HEJ::MatrixElement::MatrixElement | ( | std::function< double(double)> | alpha_s, |
| MatrixElementConfig | conf | ||
| ) |
MatrixElement Constructor.
- Parameters
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alpha_s Function taking the renormalisation scale and returning the strong coupling constant conf General matrix element settings
Member Function Documentation
◆ operator()()
squares of regulated HEJ matrix elements
- Parameters
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event The event for which to calculate matrix elements
- Returns
- The squares of HEJ matrix elements including virtual corrections
This function returns one value for the central parameter choice and one additional value for each entry in Event::variations(). See eq. (22) in [1] for the definition of the squared matrix element.
Incoming momenta must be lightlike and have vanishing transverse momentum.
◆ tree()
◆ tree_kin()
| std::vector< double > HEJ::MatrixElement::tree_kin | ( | Event const & | event | ) | const |
Kinematic part of tree-level matrix element squares.
- Parameters
-
event The event for which to calculate matrix elements
- Returns
- The kinematic part of the squares of the tree-level matrix elements
The tree-level matrix elements factorises into a renormalisation-scale dependent part, given by the strong coupling to some power, and a scale-independent remainder. This function only returns the latter part.
If there is more than one entry in the returned vector, each entry corresponds to the contribution from the interference of two channels. The order of these entries matches the one returned by the virtual_corrections member function, but is otherwise unspecified.
Incoming momenta must be lightlike and have vanishing transverse momentum.
- See also
- tree, tree_param
◆ tree_param()
Scale-dependent part of tree-level matrix element squares.
- Parameters
-
event The event for which to calculate matrix elements
- Returns
- The scale-dependent part of the squares of the tree-level matrix elements
The tree-level matrix elements factorises into a renormalisation-scale dependent part, given by the strong coupling to some power, and a scale-independent remainder. This function only returns the former parts for the central scale choice and all Event::variations().
◆ virtual_corrections()
Virtual corrections to matrix element squares.
- Parameters
-
event The event for which to calculate matrix elements
- Returns
- The virtual corrections to the squares of the matrix elements
The all order virtual corrections to LL in the MRK limit is given by replacing 1/t in the scattering amplitude according to the lipatov ansatz.
If there is more than one entry in the returned vector, each entry corresponds to the contribution from the interference of two channels. The order of these entries matches the one returned by the tree_kin member function, but is otherwise unspecified.
cf. second-to-last line of eq. (22) in [1] note that indices are off by one, i.e. out[0].p corresponds to p_1
The documentation for this class was generated from the following file:
- /home/andersen/HEJProjects/website/build/hej/include/HEJ/MatrixElement.hh
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