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Introduction to Jet Finding and Jetography (1)
Gavin Salam
CERN, Princeton University and LPTHE/Paris (CNRS)
2011 IPMU-YITP School and Workshopon Monte Carlo Tools for LHC
Yukawa Institute for Theoretical Physics, Kyoto University, JapanSeptember 2011
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Jets[Introduction]
[Background knowledge]
Jets are everywhere in QCDOur window on partons
But not the same as partons:Partons ill-defined; jets well-definable
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 2 / 30
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Why do we see jets? Parton fragmentation[Introduction]
[Background knowledge]
quark
Gluon emission:
∫αs
dE
E
dθ
θ≫ 1
At low scales:
αs → 1
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 3 / 30
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Why do we see jets? Parton fragmentation[Introduction]
[Background knowledge]
gluon
θ
quark
Gluon emission:
∫αs
dE
E
dθ
θ≫ 1
At low scales:
αs → 1
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 3 / 30
![Page 5: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/5.jpg)
Why do we see jets? Parton fragmentation[Introduction]
[Background knowledge]
quark
Gluon emission:
∫αs
dE
E
dθ
θ≫ 1
At low scales:
αs → 1
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 3 / 30
![Page 6: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/6.jpg)
Why do we see jets? Parton fragmentation[Introduction]
[Background knowledge]
non−
pert
urba
tive
hadr
onis
atio
nquark
Gluon emission:
∫αs
dE
E
dθ
θ≫ 1
At low scales:
αs → 1
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 3 / 30
![Page 7: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/7.jpg)
Why do we see jets? Parton fragmentation[Introduction]
[Background knowledge]
KL
π−
π+
π0
K+
non−
pert
urba
tive
hadr
onis
atio
nquark
Gluon emission:
∫αs
dE
E
dθ
θ≫ 1
At low scales:
αs → 1
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 3 / 30
![Page 8: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/8.jpg)
Why do we see jets? Parton fragmentation[Introduction]
[Background knowledge]
KL
π−
π+
π0
K+
non−
pert
urba
tive
hadr
onis
atio
nquark
Gluon emission:
∫αs
dE
E
dθ
θ≫ 1
At low scales:
αs → 1
High-energy partons unavoidably lead to
collimated bunches of hadrons
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 3 / 30
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Jets from scattering of partons[Introduction]
[Background knowledge]
Jets are unavoidable at hadroncolliders, e.g. from parton scat-tering
p
p
jet
jet
Tevatron results
[GeV/c]JETTp
0 100 200 300 400 500 600 700
[nb/
(GeV
/c)]
JET
T d
pJE
T /
dyσ2
d
-1410
-1110
-810
-510
-210
10
410
710
1010 D=0.7TK
)-1CDF data ( L = 1.0 fbSystematic uncertaintiesNLO: JETRAD CTEQ6.1Mcorrected to hadron level
0µ / 2 = JETT = max pFµ = Rµ
PDF uncertainties
)-6 10×|<2.1 (JET1.6<|y
)-3 10×|<1.6 (JET1.1<|y
|<1.1JET
0.7<|y
)3 10×|<0.7 (JET
0.1<|y
)6 10×|<0.1 (JET|y
Jet cross section: data and theory agree over many orders of magnitude ⇔probe of underlying interaction
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 4 / 30
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Jets from scattering of partons[Introduction]
[Background knowledge]
Jets are unavoidable at hadroncolliders, e.g. from parton scat-tering
p
p
jet
jet
CMS results
Jet cross section: data and theory agree over many orders of magnitude ⇔probe of underlying interaction
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 4 / 30
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Jets from scattering of partons[Introduction]
[Background knowledge]
Jets are unavoidable at hadroncolliders, e.g. from parton scat-tering
p
p
jet
jet
ATLAS results
Jet cross section: data and theory agree over many orders of magnitude ⇔probe of underlying interaction
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 4 / 30
![Page 12: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/12.jpg)
Jets from heavy decays[Introduction]
[Background knowledge]
Heavy objects: multi-jet final-states
◮ 107 tt pairs for 1 fb−1 @ 14 TeV
◮ Vast # of QCD multijet events
# jets # events for 1 fb−1
3 2 · 1010
4 5 · 109
5 1 · 109
6 3 · 108
7 1 · 108
8 4 · 107
Tree level
pt(jet) > 20 GeV, ∆Rij > 0.4, |yij | < 2.5
Gleisman & Hoche ’08
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 5 / 30
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Seeing v. defining jets[Introduction]
[Background knowledge]
Jets are what we see.Clearly(?) 2 jets here
How many jets do you see?Do you really want to ask yourselfthis question for 109 events?
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 6 / 30
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Seeing v. defining jets[Introduction]
[Background knowledge]
q
q
Jets are what we see.Clearly(?) 2 jets here
How many jets do you see?Do you really want to ask yourselfthis question for 109 events?
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 6 / 30
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Seeing v. defining jets[Introduction]
[Background knowledge]
Jets are what we see.Clearly(?) 2 jets here
How many jets do you see?Do you really want to ask yourselfthis question for 109 events?
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 6 / 30
![Page 16: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/16.jpg)
Seeing v. defining jets[Introduction]
[Background knowledge]
Jets are what we see.Clearly(?) 2 jets here
How many jets do you see?Do you really want to ask yourselfthis question for 109 events?
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 6 / 30
![Page 17: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/17.jpg)
Seeing v. defining jets[Introduction]
[Background knowledge]
Jets are what we see.Clearly(?) 2 jets here
How many jets do you see?Do you really want to ask yourselfthis question for 109 events?
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 6 / 30
![Page 18: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/18.jpg)
Seeing v. defining jets[Introduction]
[Background knowledge]
Jets are what we see.Clearly(?) 2 jets here
How many jets do you see?Do you really want to ask yourselfthis question for 109 events?
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 6 / 30
![Page 19: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/19.jpg)
Seeing v. defining jets[Introduction]
[Background knowledge]
A jet definition is a fully specified set of rules for projecting information froman event’s partons or hadrons onto a handful of parton-like objects (jets):
jet 1 jet 2
LO partons
Jet Def n
jet 1 jet 2
Jet Def n
NLO partons
jet 1 jet 2
Jet Def n
parton shower
jet 1 jet 2
Jet Def n
hadron level
π π
K
p φ
Projection to jets should be resilient to QCD effectsJets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 7 / 30
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QCD jets flowchart[Introduction]
[Background knowledge]
Jet (definitions) provide central link between expt., “theory” and theory
And jets are an input to almost all analyses
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 8 / 30
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QCD jets flowchart[Introduction]
[Background knowledge]
Jet (definitions) provide central link between expt., “theory” and theory
And jets are an input to almost all analyses
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 8 / 30
![Page 22: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/22.jpg)
These lectures[Introduction]
[Background knowledge]
Aims: to provide you with
◮ the “basics” needed to understand what goes into current jet-basedmeasurements;
◮ some insight into the issues that are relevant when thinking about a jetmeasurement
Structure:
◮ General considerations
◮ Common jet definitions at LHC Today
◮ Physics with jets Tomorrow
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 9 / 30
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Defining jets
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 10 / 30
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There is no unique jet definition[Introduction]
[General considerations]
The construction of a jet is unavoidably ambiguous. On at least two fronts:
1. which particles get put together into a common jet? Jet algorithm
+ parameters
2. how do you combine their momenta? Recombination scheme
Most commonly used: direct 4-vector sums (E -scheme)
Taken together, these different elements specify a choice of jetdefinition
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 11 / 30
![Page 25: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/25.jpg)
There is no unique jet definition[Introduction]
[General considerations]
The construction of a jet is unavoidably ambiguous. On at least two fronts:
1. which particles get put together into a common jet? Jet algorithm
+ parameters
2. how do you combine their momenta? Recombination scheme
Most commonly used: direct 4-vector sums (E -scheme)
Taken together, these different elements specify a choice of jetdefinition
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 11 / 30
![Page 26: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/26.jpg)
Not all ambiguity is allowed[Introduction]
[General considerations]
Jets should be invariant with respect to certain modifications of the event:
◮ collinear splitting
◮ infrared emission
Why?
◮ Because otherwise lose real-virtual cancellation in NLO/NNLO QCDcalculations → divergent results
◮ Hadron-level ‘jets’ would become fundamentally non-perturbative
◮ Detectors can resolve neither full collinear nor full infrared event structure
Known as infrared and collinear safety
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 12 / 30
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Not all ambiguity is allowed[Introduction]
[General considerations]
Jets should be invariant with respect to certain modifications of the event:
◮ collinear splitting
◮ infrared emission
Why?
◮ Because otherwise lose real-virtual cancellation in NLO/NNLO QCDcalculations → divergent results
◮ Hadron-level ‘jets’ would become fundamentally non-perturbative
◮ Detectors can resolve neither full collinear nor full infrared event structure
Known as infrared and collinear safety
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 12 / 30
![Page 28: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/28.jpg)
Not all ambiguity is allowed[Introduction]
[General considerations]
Jets should be invariant with respect to certain modifications of the event:
◮ collinear splitting
◮ infrared emission
Why?
◮ Because otherwise lose real-virtual cancellation in NLO/NNLO QCDcalculations → divergent results
◮ Hadron-level ‘jets’ would become fundamentally non-perturbative
◮ Detectors can resolve neither full collinear nor full infrared event structure
Known as infrared and collinear safety
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 12 / 30
![Page 29: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/29.jpg)
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Two main classes of jet alg.[Introduction]
[General considerations]
Sequential recombination (kt , etc.)
◮ bottom-up
◮ successively undoes QCD branching
Cone
◮ top-down
◮ centred around idea of an ‘invariant’, directed energy flow
Cones: most widely used at TevatronSeq. rec.: most widely used at LHC and HERA
In this lecture we’ll concentrate on thesequential recombination algorithms
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 14 / 30
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Two main classes of jet alg.[Introduction]
[General considerations]
Sequential recombination (kt , etc.)
◮ bottom-up
◮ successively undoes QCD branching
Cone
◮ top-down
◮ centred around idea of an ‘invariant’, directed energy flow
Cones: most widely used at TevatronSeq. rec.: most widely used at LHC and HERA
In this lecture we’ll concentrate on thesequential recombination algorithms
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 14 / 30
![Page 32: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/32.jpg)
Sequential recombination
jet algorithms
starting with a classic e+e− algorithm
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 15 / 30
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Motivating sequential recombination algorithms[Sequential recombination]
[kt in e+e−]
It’s a good approximation to think of the development of a jet as aconsequence of the repeated 1 → 2 branching of quarks and gluons.
E.g. this is how Pythia and Herwig have long modelled events
Sequential recombination algorithms try to work their way backwardsthrough this branching, repeatedly combining pairs of particles into a singleone.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 16 / 30
![Page 34: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/34.jpg)
Motivating sequential recombination algorithms[Sequential recombination]
[kt in e+e−]
It’s a good approximation to think of the development of a jet as aconsequence of the repeated 1 → 2 branching of quarks and gluons.
E.g. this is how Pythia and Herwig have long modelled events
Sequential recombination algorithms try to work their way backwardsthrough this branching, repeatedly combining pairs of particles into a singleone.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 16 / 30
![Page 35: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/35.jpg)
Motivating sequential recombination algorithms[Sequential recombination]
[kt in e+e−]
It’s a good approximation to think of the development of a jet as aconsequence of the repeated 1 → 2 branching of quarks and gluons.
E.g. this is how Pythia and Herwig have long modelled events
Sequential recombination algorithms try to work their way backwardsthrough this branching, repeatedly combining pairs of particles into a singleone.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 16 / 30
![Page 36: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/36.jpg)
Motivating sequential recombination algorithms[Sequential recombination]
[kt in e+e−]
It’s a good approximation to think of the development of a jet as aconsequence of the repeated 1 → 2 branching of quarks and gluons.
E.g. this is how Pythia and Herwig have long modelled events
Sequential recombination algorithms try to work their way backwardsthrough this branching, repeatedly combining pairs of particles into a singleone.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 16 / 30
![Page 37: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/37.jpg)
Motivating sequential recombination algorithms[Sequential recombination]
[kt in e+e−]
It’s a good approximation to think of the development of a jet as aconsequence of the repeated 1 → 2 branching of quarks and gluons.
E.g. this is how Pythia and Herwig have long modelled events
Sequential recombination algorithms try to work their way backwardsthrough this branching, repeatedly combining pairs of particles into a singleone.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 16 / 30
![Page 38: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/38.jpg)
Motivating sequential recombination algorithms[Sequential recombination]
[kt in e+e−]
It’s a good approximation to think of the development of a jet as aconsequence of the repeated 1 → 2 branching of quarks and gluons.
E.g. this is how Pythia and Herwig have long modelled events
Sequential recombination algorithms try to work their way backwardsthrough this branching, repeatedly combining pairs of particles into a singleone.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 16 / 30
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Motivating sequential recombination algorithms[Sequential recombination]
[kt in e+e−]
It’s a good approximation to think of the development of a jet as aconsequence of the repeated 1 → 2 branching of quarks and gluons.
E.g. this is how Pythia and Herwig have long modelled events
Sequential recombination algorithms try to work their way backwardsthrough this branching, repeatedly combining pairs of particles into a singleone.
The main questions are:
◮ How do you choose which pair ofparticles to combine at any givenstage?
◮ When do you stop combining them?
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 16 / 30
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kt/Durham algorithm[Sequential recombination]
[kt in e+e−]
Majority of QCD branching is soft & collinear, with following divergences:
[dkj ]|M2g→gigj
(kj )| ≃2αsCA
π
dEj
min(Ei ,Ej )
dθij
θij, (Ej ≪ Ei , θij ≪ 1) .
To invert branching process, take pair with strongest divergence betweenthem — they’re the most likely to belong together.
This is basis of kt/Durham algorithm (e+e−):
1. Calculate (or update) distances between all particles i and j :
yij =2min(E 2
i ,E2j )(1− cos θij)
Q2
NB: relative kt between particles2. Find smallest of yij◮ If > ycut , stop clustering◮ Otherwise recombine i and j , and repeat from step 1
Catani, Dokshitzer, Olsson, Turnock & Webber ’91
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 17 / 30
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kt/Durham algorithm[Sequential recombination]
[kt in e+e−]
Majority of QCD branching is soft & collinear, with following divergences:
[dkj ]|M2g→gigj
(kj )| ≃2αsCA
π
dEj
min(Ei ,Ej )
dθij
θij, (Ej ≪ Ei , θij ≪ 1) .
To invert branching process, take pair with strongest divergence betweenthem — they’re the most likely to belong together.
This is basis of kt/Durham algorithm (e+e−):
1. Calculate (or update) distances between all particles i and j :
yij =2min(E 2
i ,E2j )(1− cos θij)
Q2
NB: relative kt between particles2. Find smallest of yij◮ If > ycut , stop clustering◮ Otherwise recombine i and j , and repeat from step 1
Catani, Dokshitzer, Olsson, Turnock & Webber ’91
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 17 / 30
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kt/Durham algorithm[Sequential recombination]
[kt in e+e−]
Majority of QCD branching is soft & collinear, with following divergences:
[dkj ]|M2g→gigj
(kj )| ≃2αsCA
π
dEj
min(Ei ,Ej )
dθij
θij, (Ej ≪ Ei , θij ≪ 1) .
To invert branching process, take pair with strongest divergence betweenthem — they’re the most likely to belong together.
This is basis of kt/Durham algorithm (e+e−):
1. Calculate (or update) distances between all particles i and j :
yij =2min(E 2
i ,E2j )(1− cos θij)
Q2
NB: relative kt between particles2. Find smallest of yij◮ If > ycut , stop clustering◮ Otherwise recombine i and j , and repeat from step 1
Catani, Dokshitzer, Olsson, Turnock & Webber ’91
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 17 / 30
The algorithm has one parameter
◮ ycut: sets minimal relative transverse momentum betweenany pair of jets
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kt/Durham algorithm features[Sequential recombination]
[kt in e+e−]
◮ Gives hierarchy to event and jetsEvent can be charaterised
by y23, y34, y45.
◮ Resolution parameter related tominimal transverse momentumbetween jets
Most widely-used jet algorithm in e+e−
◮ Collinear safe: collinear particles recombined early on
◮ Infrared safe: soft particles have no impact on rest of clustering seq.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 18 / 30
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kt/Durham algorithm features[Sequential recombination]
[kt in e+e−]
◮ Gives hierarchy to event and jetsEvent can be charaterised
by y23, y34, y45.
◮ Resolution parameter related tominimal transverse momentumbetween jets
Most widely-used jet algorithm in e+e−
◮ Collinear safe: collinear particles recombined early on
◮ Infrared safe: soft particles have no impact on rest of clustering seq.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 18 / 30
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kt alg. at hadron colliders[Sequential recombination]
[kt for hadron colliders]
1st attempt
◮ Lose absolute normalisation scale Q. So use unnormalised dij rather thanyij :
dij = 2min(E 2i ,E
2j )(1− cos θij)
◮ Now also have beam remnants (go down beam-pipe, not measured)Account for this with particle-beam distance
diB = 2E 2i (1 − cos θiB)
squared transv. mom. wrt beam
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 19 / 30
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kt alg. at hadron colliders[Sequential recombination]
[kt for hadron colliders]
2nd attempt: make it longitudinally boost-invariantCatani, Dokshitzer, Seymour & Webber ’93
◮ Formulate in terms of rapidity (y), azimuth (φ), pt
dij = min(p2ti , p2tj)∆R2
ij , ∆R2ij = (yi − yj)
2 + (φi − φj)2
NB: not ηi , Eti
◮ Beam distance becomesdiB = p2ti
squared transv. mom. wrt beam
Apart from measures, just like e+e− alg.Known as exclusive kt algorithm.
Problem: at hadron collider, no single fixed scale (as in Q in e+e−). Sohow do you choose dcut? See e.g. Seymour & Tevlin ’06
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 20 / 30
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kt alg. at hadron colliders[Sequential recombination]
[kt for hadron colliders]
3rd attempt: inclusive kt algorithm
◮ Introduce angular radius R (NB: dimensionless!)
dij = min(p2ti , p2tj )
∆R2ij
R2, diB = p2ti
◮ 1. Find smallest of dij , diB2. if ij , recombine them3. if iB, call i a jet and remove from list of particles4. repeat from step 1 until no particles left.
S.D. Ellis & Soper, ’93; the simplest to use
Jets all separated by at least R on y , φ cylinder.
NB: number of jets not IR safe (soft jets near beam); number of jets abovept cut is IR safe.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 21 / 30
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kt alg. at hadron colliders[Sequential recombination]
[kt for hadron colliders]
3rd attempt: inclusive kt algorithm
◮ Introduce angular radius R (NB: dimensionless!)
dij = min(p2ti , p2tj )
∆R2ij
R2, diB = p2ti
◮ 1. Find smallest of dij , diB2. if ij , recombine them3. if iB, call i a jet and remove from list of particles4. repeat from step 1 until no particles left.
S.D. Ellis & Soper, ’93; the simplest to use
Jets all separated by at least R on y , φ cylinder.
NB: number of jets not IR safe (soft jets near beam); number of jets abovept cut is IR safe.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 21 / 30
Two parameters to remember
◮ R: sets y−φ reach of the jet; minimal interjet separation
◮ pt cut on the jets
These parameters are common to all widely used hadron-collider jet algorithms.
![Page 49: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/49.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
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kt in action[Sequential recombination]
[kt for hadron colliders]
p t/GeV
60
50
40
20
00 1 2 3 4 y
30
10
kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
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kt in action[Sequential recombination]
[kt for hadron colliders]
60
50
40
20
00 1 2 3 4 y
30
10
p t/GeV kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 52: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/52.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
y
30
10
p t/GeV
60
50
40
20
00 1 2 3 4
dmin is dij = 0.166597 kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 53: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/53.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
60
50
40
20
00 1 2 3 4 y
30
10
p t/GeV kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 54: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/54.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
y
30
10
p t/GeV
60
50
40
20
00 1 2 3 4
dmin is dij = 2.66556 kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 55: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/55.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
60
50
40
20
00 1 2 3 4 y
30
10
p t/GeV kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 56: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/56.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
y
30
10
p t/GeV
60
50
40
20
00 1 2 3 4
dmin is dij = 4.16493 kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 57: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/57.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
60
50
40
20
00 1 2 3 4 y
30
10
p t/GeV kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 58: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/58.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
y
30
10
p t/GeV
60
50
40
20
00 1 2 3 4
dmin is dij = 8.75775 kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 59: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/59.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
60
50
40
20
00 1 2 3 4 y
30
10
p t/GeV kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
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kt in action[Sequential recombination]
[kt for hadron colliders]
y
30
10
p t/GeV
60
50
40
20
00 1 2 3 4
dmin is dij = 12.7551 kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
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kt in action[Sequential recombination]
[kt for hadron colliders]
60
50
40
20
00 1 2 3 4 y
30
10
p t/GeV kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 62: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/62.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
y
30
10
p t/GeV
60
50
40
20
00 1 2 3 4
dmin is dij = 15.3298 kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
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kt in action[Sequential recombination]
[kt for hadron colliders]
60
50
40
20
00 1 2 3 4 y
30
10
p t/GeV kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
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kt in action[Sequential recombination]
[kt for hadron colliders]
y
30
10
p t/GeV
60
50
40
20
00 1 2 3 4
dmin is dij = 229.802 kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 65: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/65.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
60
40
20
00 1 2 3 4 y
30
10
50
p t/GeV kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 66: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/66.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
y
30
10
p t/GeV
60
50
40
20
00 1 2 3 4
dmin is dij = 285.007 kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 67: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/67.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
60
40
20
00 1 2 3 4 y
30
10
50
p t/GeV kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 68: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/68.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
60
50
p t/GeV
30
10
40
20
00 1 2 3 4 y
dmin is diB = 1776.02 kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 69: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/69.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
60
50
p t/GeV
30
10
40
20
00 1 2 3 4 y
kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 70: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/70.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
50
y
30
10
p t/GeV
60
40
20
00 1 2 3 4
dmin is diB = 2155.61 kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 71: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/71.jpg)
kt in action[Sequential recombination]
[kt for hadron colliders]
50
y
30
10
p t/GeV
60
40
20
00 1 2 3 4
kt alg.: Find smallest of
dij = min(k2ti , k2tj )
∆R2ij
R2, diB = k2ti
◮ If dij recombine
◮ if diB , i is a jet
Example clustering with kt algo-rithm, R = 1.0
φ assumed 0 for all towers
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 22 / 30
![Page 72: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/72.jpg)
The kt algorithms form one of several “families” of
sequential recombination jet algorithm
Others differ in:
1. the choice distance measure between pairs of particles
[i.e. the relative priority given to soft and collinear divergences,
e.g. Cambridge/Aachen (C/A), which uses just angular distance]
2. using 3 → 2 clustering rather than 2 → 1[ARCLUS; not used at hadron colliders, so won’t discuss it more]
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 23 / 30
![Page 73: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/73.jpg)
The kt family of algorithms was widely used at LEP(e+e−) and HERA (ep and γp).
Tevatron instead used cone algorithms, as did the LHCexperiments during the design and planning stages.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 24 / 30
![Page 74: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/74.jpg)
Essential characteristic of cones?[Comparing algorithms]
Cone (ICPR)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 25 / 30
![Page 75: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/75.jpg)
Essential characteristic of cones?[Comparing algorithms]
Cone (ICPR)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 25 / 30
(Some) cone algorithms givecircular jets in y − φ plane
Much appreciated by experi-ments e.g. for acceptance
corrections
![Page 76: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/76.jpg)
Essential characteristic of cones?[Comparing algorithms]
Cone (ICPR)
kt alg.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 25 / 30
(Some) cone algorithms givecircular jets in y − φ plane
Much appreciated by experi-ments e.g. for acceptance
corrections
![Page 77: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/77.jpg)
Essential characteristic of cones?[Comparing algorithms]
Cone (ICPR)
kt alg.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 25 / 30
(Some) cone algorithms givecircular jets in y − φ plane
Much appreciated by experi-ments e.g. for acceptance
corrections
kt jets are irregular
Because soft junk clusters to-gether first:
dij = min(k2ti , k2tj )∆R2
ij
Regularly held against kt
![Page 78: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/78.jpg)
Essential characteristic of cones?[Comparing algorithms]
Cone (ICPR)
kt alg.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 25 / 30
(Some) cone algorithms givecircular jets in y − φ plane
Much appreciated by experi-ments e.g. for acceptance
corrections
kt jets are irregular
Because soft junk clusters to-gether first:
dij = min(k2ti , k2tj )∆R2
ij
Regularly held against kt
Is there some other, noncone-based way of getting
circular jets?
![Page 79: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/79.jpg)
Adapting seq. rec. to give circular jets[Comparing algorithms]
Soft stuff clusters with nearest neighbour
kt : dij = min(k2ti , k
2tj)∆R2
ij −→ anti-kt: dij =∆R2
ij
max(k2ti , k
2tj)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 26 / 30
Hard stuff clusters with nearest neighbour
![Page 80: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/80.jpg)
Adapting seq. rec. to give circular jets[Comparing algorithms]
Soft stuff clusters with nearest neighbour
kt : dij = min(k2ti , k
2tj)∆R2
ij −→ anti-kt: dij =∆R2
ij
max(k2ti , k
2tj)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 26 / 30
Hard stuff clusters with nearest neighbour
![Page 81: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/81.jpg)
Adapting seq. rec. to give circular jets[Comparing algorithms]
Soft stuff clusters with nearest neighbour
kt : dij = min(k2ti , k
2tj)∆R2
ij −→ anti-kt: dij =∆R2
ij
max(k2ti , k
2tj)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 26 / 30
Hard stuff clusters with nearest neighbour
![Page 82: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/82.jpg)
Adapting seq. rec. to give circular jets[Comparing algorithms]
Soft stuff clusters with nearest neighbour
kt : dij = min(k2ti , k
2tj)∆R2
ij −→ anti-kt: dij =∆R2
ij
max(k2ti , k
2tj)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 26 / 30
Hard stuff clusters with nearest neighbour
![Page 83: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/83.jpg)
Adapting seq. rec. to give circular jets[Comparing algorithms]
Soft stuff clusters with nearest neighbour
kt : dij = min(k2ti , k
2tj)∆R2
ij −→ anti-kt: dij =∆R2
ij
max(k2ti , k
2tj)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 26 / 30
Hard stuff clusters with nearest neighbour
![Page 84: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/84.jpg)
Adapting seq. rec. to give circular jets[Comparing algorithms]
Soft stuff clusters with nearest neighbour
kt : dij = min(k2ti , k
2tj)∆R2
ij −→ anti-kt: dij =∆R2
ij
max(k2ti , k
2tj)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 26 / 30
Hard stuff clusters with nearest neighbour
![Page 85: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/85.jpg)
Adapting seq. rec. to give circular jets[Comparing algorithms]
Soft stuff clusters with nearest neighbour
kt : dij = min(k2ti , k
2tj)∆R2
ij −→ anti-kt: dij =∆R2
ij
max(k2ti , k
2tj)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 26 / 30
Hard stuff clusters with nearest neighbour
![Page 86: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/86.jpg)
Adapting seq. rec. to give circular jets[Comparing algorithms]
Soft stuff clusters with nearest neighbour
kt : dij = min(k2ti , k
2tj)∆R2
ij −→ anti-kt: dij =∆R2
ij
max(k2ti , k
2tj)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 26 / 30
Hard stuff clusters with nearest neighbour
![Page 87: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/87.jpg)
Adapting seq. rec. to give circular jets[Comparing algorithms]
Soft stuff clusters with nearest neighbour
kt : dij = min(k2ti , k
2tj)∆R2
ij −→ anti-kt: dij =∆R2
ij
max(k2ti , k
2tj)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 26 / 30
Hard stuff clusters with nearest neighbour
![Page 88: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/88.jpg)
Adapting seq. rec. to give circular jets[Comparing algorithms]
Soft stuff clusters with nearest neighbour
kt : dij = min(k2ti , k
2tj)∆R2
ij −→ anti-kt: dij =∆R2
ij
max(k2ti , k
2tj)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 26 / 30
Hard stuff clusters with nearest neighbour
![Page 89: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/89.jpg)
Adapting seq. rec. to give circular jets[Comparing algorithms]
Soft stuff clusters with nearest neighbour
kt : dij = min(k2ti , k
2tj)∆R2
ij −→ anti-kt: dij =∆R2
ij
max(k2ti , k
2tj)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 26 / 30
Hard stuff clusters with nearest neighbour
![Page 90: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/90.jpg)
Adapting seq. rec. to give circular jets[Comparing algorithms]
Soft stuff clusters with nearest neighbour
kt : dij = min(k2ti , k
2tj)∆R2
ij −→ anti-kt: dij =∆R2
ij
max(k2ti , k
2tj)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 26 / 30
Hard stuff clusters with nearest neighbour
![Page 91: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/91.jpg)
Adapting seq. rec. to give circular jets[Comparing algorithms]
Soft stuff clusters with nearest neighbour
kt : dij = min(k2ti , k
2tj)∆R2
ij −→ anti-kt: dij =∆R2
ij
max(k2ti , k
2tj)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 26 / 30
Hard stuff clusters with nearest neighbour
anti-kt givescone-like jets
without using stablecones
![Page 92: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/92.jpg)
Anti-kt experimental performance[Comparing algorithms]
As good as, or betterthan all previousexperimentally-favouredalgorithms.
Essentially becauseanti-kt has linearresponse to softparticles.
And it’s also infraredand collinear safe(needed for theorycalcs.)
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 27 / 30
![Page 93: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/93.jpg)
Linearity: kt v. anti-kt[Comparing algorithms]
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
kt clustering, R=1
![Page 94: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/94.jpg)
Linearity: kt v. anti-kt[Comparing algorithms]
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
kt clustering, R=1
![Page 95: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/95.jpg)
Linearity: kt v. anti-kt[Comparing algorithms]
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
kt clustering, R=1
![Page 96: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/96.jpg)
Linearity: kt v. anti-kt[Comparing algorithms]
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
kt clustering, R=1
![Page 97: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/97.jpg)
Linearity: kt v. anti-kt[Comparing algorithms]
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
kt clustering, R=1
![Page 98: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/98.jpg)
Linearity: kt v. anti-kt[Comparing algorithms]
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
kt clustering, R=1
![Page 99: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/99.jpg)
Linearity: kt v. anti-kt[Comparing algorithms]
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
kt clustering, R=1
![Page 100: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/100.jpg)
Linearity: kt v. anti-kt[Comparing algorithms]
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
kt clustering, R=1
30
35
40
45
50
0 5 10 15
p t,je
t [G
eV]
pt,2 [GeV]
kt alg.
jet pt v. pt,2
![Page 101: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/101.jpg)
Linearity: kt v. anti-kt[Comparing algorithms]
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
kt clustering, R=1
30
35
40
45
50
0 5 10 15
p t,je
t [G
eV]
pt,2 [GeV]
kt alg.
jet pt v. pt,2
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
anti−kt clustering, R=1
![Page 102: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/102.jpg)
Linearity: kt v. anti-kt[Comparing algorithms]
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
kt clustering, R=1
30
35
40
45
50
0 5 10 15
p t,je
t [G
eV]
pt,2 [GeV]
kt alg.
jet pt v. pt,2
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
anti−kt clustering, R=1
![Page 103: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/103.jpg)
Linearity: kt v. anti-kt[Comparing algorithms]
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
kt clustering, R=1
30
35
40
45
50
0 5 10 15
p t,je
t [G
eV]
pt,2 [GeV]
kt alg.
jet pt v. pt,2
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
anti−kt clustering, R=1
![Page 104: Introduction to Jet Finding and Jetography (1) · 2011. 9. 5. · Heavy objects: multi-jet final-states 107 t¯t pairs for 1 fb−1 @ 14 TeV Vast # of QCD multijet events # jets](https://reader036.vdocuments.mx/reader036/viewer/2022081623/614a874d12c9616cbc697970/html5/thumbnails/104.jpg)
Linearity: kt v. anti-kt[Comparing algorithms]
1
23
p t/GeV
40
20
00 1 2 3
30
10
y
kt clustering, R=1
30
35
40
45
50
0 5 10 15
p t,je
t [G
eV]
pt,2 [GeV]
kt alg.
jet pt v. pt,2
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Linearity: kt v. anti-kt[Comparing algorithms]
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kt clustering, R=1
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t [G
eV]
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Linearity: kt v. anti-kt[Comparing algorithms]
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Linearity: kt v. anti-kt[Comparing algorithms]
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Linearity: kt v. anti-kt[Comparing algorithms]
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Linearity: kt v. anti-kt[Comparing algorithms]
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40
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kt clustering, R=1
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jet pt v. pt,2
Anti-kt ’s linearity with respect to soft radiation and/ordetector fluctuations makes it simpler to use experimentally
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Nearly all algorithms available in FastJet[Comparing algorithms]
FastJet time to cluster N particles
10-4
10-3
10-2
10-1
1
101
102
100 1000 10000 100000
t / s
N
KtJet k t
CDF MidPoint (s
eeds > 0 G
eV)
CDF MidPoint (seeds > 1 GeV)
CDF JetClu (very unsafe)
FastJet
Seedless IR Safe Cone
(SISCone)
Cam/Aachen
R=0.7
anti-k t
LHC lo-lumi LHC hi-lumi LHC Pb-Pb
k t
Used by all the LHC experimentsAavailable from http://fastjet.fr/
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 29 / 30
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Summary[Comparing algorithms]
Today we’ve examined why we need jets and looked at some of thelogic behind the way they’re defined.
Of the different algorithms we’ve discussed, the one that’s most widelyused at LHC today is anti-kt .
But the other algorithms we’ve seen will also play a role at the LHC.
Tomorrow’s subject will be making the best use of jets.
Jets lecture 1 (Gavin Salam) MC tools for LHC school September 2011 30 / 30