Difference between revisions of "Ariadne"
From Particle Wiki
(Created page with "'''Ariadne''' is a [Monte Carlo] [parton shower] [generator]. It was the first parton shower program that formulated [parton splitting] not in terms of partons (except for the...") |
|||
| Line 1: | Line 1: | ||
| − | '''Ariadne''' is a [Monte Carlo] [parton shower] [generator]. It was the first parton shower program that formulated [parton splitting] not in terms of partons (except for the splitting of a gluon to a quark-antiquark pair), but in terms of colour dipoles, each connecting a quark-antiquark pair. As such, it is the original [dipole shower]. | + | '''Ariadne''' is a [[Monte Carlo]] [[parton shower]] [[generator]]. It was the first parton shower program that formulated [[parton splitting]] not in terms of partons (except for the splitting of a gluon to a quark-antiquark pair), but in terms of colour dipoles, each connecting a quark-antiquark pair. As such, it is the original [[dipole shower]] program. |
| − | The '''Ariadne project''' in a wider sense also includes the [Dipsy] Monte Carlo, as well as the [rope hadronisation] model for describing hadron formation in environments where there is a high colour charge density (such as a [heavy ion collision]). | + | The '''Ariadne project''' in a wider sense also includes the [[Dipsy]] Monte Carlo, as well as the [[rope hadronisation]] model for describing hadron formation in environments where there is a high colour charge density (such as a [[heavy ion collision]]). |
Revision as of 13:15, 24 November 2016
Ariadne is a Monte Carlo parton shower generator. It was the first parton shower program that formulated parton splitting not in terms of partons (except for the splitting of a gluon to a quark-antiquark pair), but in terms of colour dipoles, each connecting a quark-antiquark pair. As such, it is the original dipole shower program.
The Ariadne project in a wider sense also includes the Dipsy Monte Carlo, as well as the rope hadronisation model for describing hadron formation in environments where there is a high colour charge density (such as a heavy ion collision).
