The k_t and Cambridge/Aachen inclusive jet finding algorithms for
hadron-hadron collisions can be seen as belonging to a broader class of
sequential recombination jet algorithms, parametrised by the power of the
energy scale in the distance measure. We examine some properties of a new
member of this class, for which the power is negative. This ``anti-k_t''
algorithm essentially behaves like an idealised cone algorithm, in that jets
with only soft fragmentation are conical, active and passive areas are equal,
the area anomalous dimensions are zero, the non-global logarithms are those of
a rigid boundary and the Milan factor is universal. None of these properties
hold for existing sequential recombination algorithms, nor for cone algorithms
with split--merge steps, such as SISCone. They are however the identifying
characteristics of the collinear unsafe plain ``iterative cone'' algorithm, for
which the anti-k_t algorithm provides a natural, fast, infrared and collinear
safe replacement.
%0 Generic
%1 ANTI_KT
%A Cacciari, Matteo
%A Salam, Gavin P.
%A Soyez, Gregory
%D 2008
%K anti-kt jets
%R 10.1088/1126-6708/2008/04/063
%T The anti-k_t jet clustering algorithm
%U http://arxiv.org/abs/0802.1189
%X The k_t and Cambridge/Aachen inclusive jet finding algorithms for
hadron-hadron collisions can be seen as belonging to a broader class of
sequential recombination jet algorithms, parametrised by the power of the
energy scale in the distance measure. We examine some properties of a new
member of this class, for which the power is negative. This ``anti-k_t''
algorithm essentially behaves like an idealised cone algorithm, in that jets
with only soft fragmentation are conical, active and passive areas are equal,
the area anomalous dimensions are zero, the non-global logarithms are those of
a rigid boundary and the Milan factor is universal. None of these properties
hold for existing sequential recombination algorithms, nor for cone algorithms
with split--merge steps, such as SISCone. They are however the identifying
characteristics of the collinear unsafe plain ``iterative cone'' algorithm, for
which the anti-k_t algorithm provides a natural, fast, infrared and collinear
safe replacement.
@misc{ANTI_KT,
abstract = {The k_t and Cambridge/Aachen inclusive jet finding algorithms for
hadron-hadron collisions can be seen as belonging to a broader class of
sequential recombination jet algorithms, parametrised by the power of the
energy scale in the distance measure. We examine some properties of a new
member of this class, for which the power is negative. This ``anti-k_t''
algorithm essentially behaves like an idealised cone algorithm, in that jets
with only soft fragmentation are conical, active and passive areas are equal,
the area anomalous dimensions are zero, the non-global logarithms are those of
a rigid boundary and the Milan factor is universal. None of these properties
hold for existing sequential recombination algorithms, nor for cone algorithms
with split--merge steps, such as SISCone. They are however the identifying
characteristics of the collinear unsafe plain ``iterative cone'' algorithm, for
which the anti-k_t algorithm provides a natural, fast, infrared and collinear
safe replacement.},
added-at = {2012-12-01T15:19:28.000+0100},
author = {Cacciari, Matteo and Salam, Gavin P. and Soyez, Gregory},
biburl = {https://www.bibsonomy.org/bibtex/252ff2ac26fa7cf495a8cefcfb0f7f37b/kreczko},
description = {The anti-k_t jet clustering algorithm},
doi = {10.1088/1126-6708/2008/04/063},
interhash = {63750a43a02cf147f532d46273603664},
intrahash = {52ff2ac26fa7cf495a8cefcfb0f7f37b},
keywords = {anti-kt jets},
note = {arxiv:0802.1189},
timestamp = {2014-07-27T00:02:59.000+0200},
title = {The anti-k_t jet clustering algorithm},
url = {http://arxiv.org/abs/0802.1189},
year = 2008
}