higgs boson decays to light scalars at atlas · 2020. 10. 26. · atlas 2hdm+s h 125!aa summary...
TRANSCRIPT
![Page 1: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/1.jpg)
h125
Jet
`+
`−
a
Z
Higgs Boson Decays to Light Scalars at ATLAS
University of Oxford, 20th October 2020
Elliot Reynolds
This project has received funding from the European Research Council (ERC) under the European Union’s
Horizon 2020 research and innovation programme under grant agreement no 714893 (ExclusiveHiggs)
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Ways to Extend the HiggsSector
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Standard Model Higgs Sector 128
Higgs Doublet field introduces gauge invariant mass terms to theStandard Model (SM), facilitates electroweak (EW) symmetry
breaking (EWSB), and preserves the unitarity of WLWL → WLWL
φ = 1√2
(0
v + h(x)
)φ = 1√
2
(φ1(x) + iφ2(x)φ3(x) + iφ4(x)
)→ mW = 1
2gW v
mZ = 12v√g2W + g ′2
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Observed Higgs Boson 228
Single neutral Higgs boson (h125) with a mass of 125 GeVdiscovered in 2012 by ATLAS and CMS
arXiv:1307.1347
ATLAS-CONF-2018-031
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Observed Higgs Boson 228
Single neutral Higgs boson (h125) with a mass of 125 GeVdiscovered in 2012 by ATLAS and CMS
arXiv:1307.1347 ATLAS-CONF-2018-031
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Extended Higgs Sectors 328
The SM is not the only possible Higgs sector, just the simplest
More motivations: Supersymmetry, CP-violation, dark matter...
EW precision measurements impose:ρ ≡ m2
W /(m2Z cos2 θW ) = 1.00039± 0.00019
Naturally achieved by configuration of scalar singlets and doublets
Simplest extensions to the SM Higgs sector:
Higgs doublet with one or more additional scalar singletsTwo Higgs doublet model (2HDM)2HDM with an additional singlet (2HDM+S)
More complex scalar sectors (including involving triplets) are possible,leading to exotic signatures such as doubly charged Higgs bosons
![Page 7: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/7.jpg)
Extended Higgs Sectors 328
The SM is not the only possible Higgs sector, just the simplest
More motivations: Supersymmetry, CP-violation, dark matter...
EW precision measurements impose:ρ ≡ m2
W /(m2Z cos2 θW ) = 1.00039± 0.00019
Naturally achieved by configuration of scalar singlets and doublets
Simplest extensions to the SM Higgs sector:
Higgs doublet with one or more additional scalar singletsTwo Higgs doublet model (2HDM)2HDM with an additional singlet (2HDM+S)
More complex scalar sectors (including involving triplets) are possible,leading to exotic signatures such as doubly charged Higgs bosons
![Page 8: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/8.jpg)
Extended Higgs Sectors 328
The SM is not the only possible Higgs sector, just the simplest
More motivations: Supersymmetry, CP-violation, dark matter...
EW precision measurements impose:ρ ≡ m2
W /(m2Z cos2 θW ) = 1.00039± 0.00019
Naturally achieved by configuration of scalar singlets and doublets
Simplest extensions to the SM Higgs sector:
Higgs doublet with one or more additional scalar singletsTwo Higgs doublet model (2HDM)2HDM with an additional singlet (2HDM+S)
More complex scalar sectors (including involving triplets) are possible,leading to exotic signatures such as doubly charged Higgs bosons
![Page 9: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/9.jpg)
Extended Higgs Sectors 328
The SM is not the only possible Higgs sector, just the simplest
More motivations: Supersymmetry, CP-violation, dark matter...
EW precision measurements impose:ρ ≡ m2
W /(m2Z cos2 θW ) = 1.00039± 0.00019
Naturally achieved by configuration of scalar singlets and doublets
Simplest extensions to the SM Higgs sector:
Higgs doublet with one or more additional scalar singletsTwo Higgs doublet model (2HDM)2HDM with an additional singlet (2HDM+S)
More complex scalar sectors (including involving triplets) are possible,leading to exotic signatures such as doubly charged Higgs bosons
![Page 10: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/10.jpg)
Extended Higgs Sectors 328
The SM is not the only possible Higgs sector, just the simplest
More motivations: Supersymmetry, CP-violation, dark matter...
EW precision measurements impose:ρ ≡ m2
W /(m2Z cos2 θW ) = 1.00039± 0.00019
Naturally achieved by configuration of scalar singlets and doublets
Simplest extensions to the SM Higgs sector:
Higgs doublet with one or more additional scalar singletsTwo Higgs doublet model (2HDM)2HDM with an additional singlet (2HDM+S)
More complex scalar sectors (including involving triplets) are possible,leading to exotic signatures such as doubly charged Higgs bosons
![Page 11: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/11.jpg)
Two Higgs Doublet Model 428
The 2HDM has a pair of scalar doublet fields
Physical Higgs bosons: h and H (CP-even), a (CP-odd), and H±
tanβ = v2/v1
To avoid tree-level flavour changing neutral currents, all fermions of agiven charge and quantum numbers couple to one doublet (arXiv:1207.1083)
2HDM Type First Doublet Second Doublet
Type-I All fermionsType-II (Supersymmetry) Up-type fermions Down-type fermions
Type-III Quarks LeptonsType-IV Up-type quarks Down-type quarks
Down-type leptons Up-type leptons
![Page 12: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/12.jpg)
Two Higgs Doublet Model 428
The 2HDM has a pair of scalar doublet fields
Physical Higgs bosons: h and H (CP-even), a (CP-odd), and H±
tanβ = v2/v1
To avoid tree-level flavour changing neutral currents, all fermions of agiven charge and quantum numbers couple to one doublet (arXiv:1207.1083)
2HDM Type First Doublet Second Doublet
Type-I All fermionsType-II (Supersymmetry) Up-type fermions Down-type fermions
Type-III Quarks LeptonsType-IV Up-type quarks Down-type quarks
Down-type leptons Up-type leptons
![Page 13: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/13.jpg)
Two Higgs Doublet Model 428
The 2HDM has a pair of scalar doublet fields
Physical Higgs bosons: h and H (CP-even), a (CP-odd), and H±
tanβ = v2/v1
To avoid tree-level flavour changing neutral currents, all fermions of agiven charge and quantum numbers couple to one doublet (arXiv:1207.1083)
2HDM Type First Doublet Second Doublet
Type-I All fermionsType-II (Supersymmetry) Up-type fermions Down-type fermions
Type-III Quarks LeptonsType-IV Up-type quarks Down-type quarks
Down-type leptons Up-type leptons
![Page 14: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/14.jpg)
Two Higgs Doublet Model 428
The 2HDM has a pair of scalar doublet fields
Physical Higgs bosons: h and H (CP-even), a (CP-odd), and H±
tanβ = v2/v1
To avoid tree-level flavour changing neutral currents, all fermions of agiven charge and quantum numbers couple to one doublet (arXiv:1207.1083)
2HDM Type First Doublet Second Doublet
Type-I All fermionsType-II (Supersymmetry) Up-type fermions Down-type fermions
Type-III Quarks LeptonsType-IV Up-type quarks Down-type quarks
Down-type leptons Up-type leptons
![Page 15: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/15.jpg)
Two Higgs Doublet Model with an Additional Singlet 528
The 2HDM+S extends the 2HDM by one singlet field
2HDM scalar sector plus one neutral CP-even and one neutralCP-odd scalar
The Type-II 2HDM+S is featured in Supersymmetric models, where itsolves a naturalness problem in the Higgs mass scale
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Type-II 2HDM+S BR(a→ SM) 628
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=0.5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
arXiv:1312.4992
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Heavy or Light? 728
The new scalars can be heavy...
Or they can be light
Many active search channels:
H → ττ (arXiv:2002.12223)H → µµ (arXiv:1901.08144)H →WW (arXiv:1710.01123)H → γγ (arXiv:1707.04147)bH → bbb (arXiv:1907.02749)H± → tb (arXiv:1808.03599)H± → τν (arXiv:1807.07915)H± → ZW (arXiv:1806.01532)H±± →W±W±
(arXiv:1808.01899)
They could be too heavy to beproduced at the LHC
Previous experiments would nothave discovered them if theironly large coupling is to h125
h125 → aa and h125 → Zapossible
Subject of what follows
Small natural width of h125means even small couplings tonew light resonances would leadto large BRs
![Page 18: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/18.jpg)
Heavy or Light? 728
The new scalars can be heavy... Or they can be light
Many active search channels:
H → ττ (arXiv:2002.12223)H → µµ (arXiv:1901.08144)H →WW (arXiv:1710.01123)H → γγ (arXiv:1707.04147)bH → bbb (arXiv:1907.02749)H± → tb (arXiv:1808.03599)H± → τν (arXiv:1807.07915)H± → ZW (arXiv:1806.01532)H±± →W±W±
(arXiv:1808.01899)
They could be too heavy to beproduced at the LHC
Previous experiments would nothave discovered them if theironly large coupling is to h125
h125 → aa and h125 → Zapossible
Subject of what follows
Small natural width of h125means even small couplings tonew light resonances would leadto large BRs
![Page 19: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/19.jpg)
Heavy or Light? 728
The new scalars can be heavy... Or they can be light
Γh125≈ 4.07 MeV
Γh125/mh125
≈ 3.3× 10−5
H → bb,ττ suppressed byyb,τ < O(10−2)
H → γγ,gg ,Zγ suppressed byloop factors
H → WW ∗,ZZ∗,tt̄ suppressed byphase space
Previous experiments would nothave discovered them if theironly large coupling is to h125
h125 → aa and h125 → Zapossible
Subject of what follows
Small natural width of h125means even small couplings tonew light resonances would leadto large BRs
![Page 20: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/20.jpg)
Current ATLAS SearchProgramme
![Page 21: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/21.jpg)
ATLAS Detector 828
LHC: 13 TeV pp collisions. Run 2: Lint = 139 fb−1 to date
arXiv:1011.6665
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ATLAS 2HDM+S h125 → aa Summary Plots 928
tanβ
=5
tanβ
=0.5
Type-II
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-III
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-IV
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SMσ
Hσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
ATL-PHYS-PUB-2018-045
Very few h125 → Za decays modes!BR(h125 → aa) = 100%h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbbtanβ suppression of down-type lepton couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµ
tanβ suppression of down-type quark couplings!
h125 → aa→ bbµµh125 → aa→ bbbb
tanβ suppression of down-type fermion couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbb
h125 → aa→ γγjj? h125 → aa→ γγγγ?h125 → aa→ γγjj? h125 → aa→ γγγγ?
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=0.5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
a→ γγ
![Page 23: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/23.jpg)
ATLAS 2HDM+S h125 → aa Summary Plots 928
tanβ
=5
tanβ
=0.5
Type-II
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-III
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-IV
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SMσ
Hσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
ATL-PHYS-PUB-2018-045
Very few h125 → Za decays modes!
BR(h125 → aa) = 100%h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbbtanβ suppression of down-type lepton couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµ
tanβ suppression of down-type quark couplings!
h125 → aa→ bbµµh125 → aa→ bbbb
tanβ suppression of down-type fermion couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbb
h125 → aa→ γγjj? h125 → aa→ γγγγ?h125 → aa→ γγjj? h125 → aa→ γγγγ?
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=0.5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
a→ γγ
![Page 24: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/24.jpg)
ATLAS 2HDM+S h125 → aa Summary Plots 928
tanβ
=5
tanβ
=0.5
Type-II
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-III
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-IV
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SMσ
Hσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
ATL-PHYS-PUB-2018-045
Very few h125 → Za decays modes!
BR(h125 → aa) = 100%
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbbtanβ suppression of down-type lepton couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµ
tanβ suppression of down-type quark couplings!
h125 → aa→ bbµµh125 → aa→ bbbb
tanβ suppression of down-type fermion couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbb
h125 → aa→ γγjj? h125 → aa→ γγγγ?h125 → aa→ γγjj? h125 → aa→ γγγγ?
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=0.5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
a→ γγ
![Page 25: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/25.jpg)
ATLAS 2HDM+S h125 → aa Summary Plots 928
tanβ
=5
tanβ
=0.5
Type-II
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-III
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-IV
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SMσ
Hσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
ATL-PHYS-PUB-2018-045
Very few h125 → Za decays modes!BR(h125 → aa) = 100%
h125 → aa→ µµµµ
h125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbbtanβ suppression of down-type lepton couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµ
tanβ suppression of down-type quark couplings!
h125 → aa→ bbµµh125 → aa→ bbbb
tanβ suppression of down-type fermion couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbb
h125 → aa→ γγjj? h125 → aa→ γγγγ?h125 → aa→ γγjj? h125 → aa→ γγγγ?
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=0.5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
a→ γγ
![Page 26: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/26.jpg)
ATLAS 2HDM+S h125 → aa Summary Plots 928
tanβ
=5
tanβ
=0.5
Type-II
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-III
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-IV
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SMσ
Hσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
ATL-PHYS-PUB-2018-045
Very few h125 → Za decays modes!BR(h125 → aa) = 100%h125 → aa→ µµµµ
h125 → aa→ µµττ
h125 → aa→ bbµµh125 → aa→ bbbbtanβ suppression of down-type lepton couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµ
tanβ suppression of down-type quark couplings!
h125 → aa→ bbµµh125 → aa→ bbbb
tanβ suppression of down-type fermion couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbb
h125 → aa→ γγjj? h125 → aa→ γγγγ?h125 → aa→ γγjj? h125 → aa→ γγγγ?
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=0.5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
a→ γγ
![Page 27: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/27.jpg)
ATLAS 2HDM+S h125 → aa Summary Plots 928
tanβ
=5
tanβ
=0.5
Type-II
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-III
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-IV
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SMσ
Hσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
ATL-PHYS-PUB-2018-045
Very few h125 → Za decays modes!BR(h125 → aa) = 100%h125 → aa→ µµµµh125 → aa→ µµττ
h125 → aa→ bbµµ
h125 → aa→ bbbbtanβ suppression of down-type lepton couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµ
tanβ suppression of down-type quark couplings!
h125 → aa→ bbµµh125 → aa→ bbbb
tanβ suppression of down-type fermion couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbb
h125 → aa→ γγjj? h125 → aa→ γγγγ?h125 → aa→ γγjj? h125 → aa→ γγγγ?
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=0.5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
a→ γγ
![Page 28: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/28.jpg)
ATLAS 2HDM+S h125 → aa Summary Plots 928
tanβ
=5
tanβ
=0.5
Type-II
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-III
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-IV
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SMσ
Hσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
ATL-PHYS-PUB-2018-045
Very few h125 → Za decays modes!BR(h125 → aa) = 100%h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµ
h125 → aa→ bbbb
tanβ suppression of down-type lepton couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµ
tanβ suppression of down-type quark couplings!
h125 → aa→ bbµµh125 → aa→ bbbb
tanβ suppression of down-type fermion couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbb
h125 → aa→ γγjj? h125 → aa→ γγγγ?h125 → aa→ γγjj? h125 → aa→ γγγγ?
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=0.5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
a→ γγ
![Page 29: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/29.jpg)
ATLAS 2HDM+S h125 → aa Summary Plots 928
tanβ
=5
tanβ
=0.5
Type-II
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-III
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-IV
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SMσ
Hσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
ATL-PHYS-PUB-2018-045
Very few h125 → Za decays modes!BR(h125 → aa) = 100%h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbb
tanβ suppression of down-type lepton couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµ
tanβ suppression of down-type quark couplings!
h125 → aa→ bbµµh125 → aa→ bbbb
tanβ suppression of down-type fermion couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbb
h125 → aa→ γγjj? h125 → aa→ γγγγ?h125 → aa→ γγjj? h125 → aa→ γγγγ?
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=0.5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
a→ γγ
![Page 30: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/30.jpg)
ATLAS 2HDM+S h125 → aa Summary Plots 928
tanβ
=5
tanβ
=0.5
Type-II
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
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510
610
710
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aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-III
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-IV
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SMσ
Hσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
ATL-PHYS-PUB-2018-045
Very few h125 → Za decays modes!BR(h125 → aa) = 100%h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbbtanβ suppression of down-type lepton couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµ
tanβ suppression of down-type quark couplings!
h125 → aa→ bbµµh125 → aa→ bbbb
tanβ suppression of down-type fermion couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbb
h125 → aa→ γγjj? h125 → aa→ γγγγ?h125 → aa→ γγjj? h125 → aa→ γγγγ?
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=0.5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
a→ γγ
![Page 31: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/31.jpg)
ATLAS 2HDM+S h125 → aa Summary Plots 928
tanβ
=5
tanβ
=0.5
Type-II
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-III
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-IV
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SMσ
Hσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
ATL-PHYS-PUB-2018-045
Very few h125 → Za decays modes!BR(h125 → aa) = 100%h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbbtanβ suppression of down-type lepton couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµ
tanβ suppression of down-type quark couplings!
h125 → aa→ bbµµh125 → aa→ bbbb
tanβ suppression of down-type fermion couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbb
h125 → aa→ γγjj? h125 → aa→ γγγγ?h125 → aa→ γγjj? h125 → aa→ γγγγ?
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=0.5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
a→ γγ
![Page 32: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/32.jpg)
ATLAS 2HDM+S h125 → aa Summary Plots 928
tanβ
=5
tanβ
=0.5
Type-II
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-III
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-IV
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SMσ
Hσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
ATL-PHYS-PUB-2018-045
Very few h125 → Za decays modes!BR(h125 → aa) = 100%h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbbtanβ suppression of down-type lepton couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµ
tanβ suppression of down-type quark couplings!
h125 → aa→ bbµµh125 → aa→ bbbb
tanβ suppression of down-type fermion couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbb
h125 → aa→ γγjj? h125 → aa→ γγγγ?
h125 → aa→ γγjj? h125 → aa→ γγγγ?
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=0.5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
a→ γγ
![Page 33: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/33.jpg)
ATLAS 2HDM+S h125 → aa Summary Plots 928
tanβ
=5
tanβ
=0.5
Type-II
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-II, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-III
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
6−10
5−10
4−10
3−10
2−10
1−10
1
10
210
310
410
510
610
710
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-III, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
Type-IV
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 0.5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SM
σHσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary
-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
1 10
[GeV]am
3−10
2−10
1−10
1
10
210
310
410
510
610
710
810
aa)
→ B
(H×
SMσ
Hσ
95%
CL
on
60
= 5β2HDM+S Type-IV, tan
ATLAS Preliminary-1 = 13 TeV, 36.1 fbs: Run 2
-1 = 8 TeV, 20.3 fbs: Run 1
arXiv: 1505.01609ττµµ → aa→HRun 1
arXiv: 1509.05051γγγγ → aa→HRun 1
arXiv: 1802.03388µµµµ → aa→HRun 2
arXiv: 1803.11145jjγγ → aa→HRun 2
arXiv: 1806.07355 bbbb→ aa→HRun 2
arXiv: 1807.00539µµ bb→ aa→HRun 2
σ 1 ±expected observed
ATL-PHYS-PUB-2018-045
Very few h125 → Za decays modes!BR(h125 → aa) = 100%h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbbtanβ suppression of down-type lepton couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµ
tanβ suppression of down-type quark couplings!
h125 → aa→ bbµµh125 → aa→ bbbb
tanβ suppression of down-type fermion couplings!
h125 → aa→ µµµµh125 → aa→ µµττh125 → aa→ bbµµh125 → aa→ bbbb
h125 → aa→ γγjj? h125 → aa→ γγγγ?
h125 → aa→ γγjj? h125 → aa→ γγγγ?
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=0.5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
1 2 5 10 20 5010-4
0.001
0.01
0.1
1
ma @GeVD
BrHa®SML
tan Β=5, TYPE II
bbccssΤΤΜΜgg
uuddΓΓ
a→ γγ
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New Ideas Required! 1028
Very few searches for h125 → Za
Most searches for a use its decays to down-type fermions
Both gaps can be filled with a search for h125 → Za → ``j
Major challenge from overwhelming Z + jets background
New ideas required to address this...
![Page 35: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/35.jpg)
h125→ Za→ ``jarXiv:2004.01678 and Auxiliary Material
![Page 36: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/36.jpg)
Aims and Motivation 1128
Aims
Use full ATLAS Run II dataset (139 fb−1)to perform first search forh125 → Z(`+`−)a/Q(had), ` = e or µ
Interpret resonance as J/ψ or ηc , or a(BSM) with ma <4 GeV
Charmonium Motivation
h125
Jet
`+
`−
a
Z
Higgs boson decays to Z + light resonances unconstrained
Potential constraints on Higgs boson coupling to charm-quark
BSM Motivation
Fills both gaps in the search programme: H → Za, anddecays of a other than to down-type fermions
![Page 37: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/37.jpg)
Physics Processes and Simulation 1228
Physics Processes
Focus on low mass (< 4 GeV) a signals
Higher BR to light hadrons and unique decay kinematics
Signals from inclusive Higgs boson production
Dominant background: Z + jetsSmall contributions from tt̄ and diboson
Simulation
Signals modelled using Powheg, Pythia8 and EvtGen
Z + jets modelled using Sherpa 2.2.1
Full Geant4 simulation of the ATLAS detector
![Page 38: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/38.jpg)
Event Selection 1328
Selection Details
Triggers Single lepton triggers pT, lead > 27 GeVLeptons N` ≥ 2 with pT > 18 GeVZ boson 2 SF OS leptons, with |mll −mZ | < 10 GeVJet (a) Anti-kT jet, radius parameter 0.4,
formed of calorimeter clusters, pT > 20 GeVPre-Higgs m`+`−j < 250 GeV
Select highest pT jet as a-candidate
≥ 2 tracks ≥ 2 tracks ghost associated to the calo jetHiggs SR 120 GeV < m`+`−j < 135 GeV
20 30 40 50 60 70 80 90 100 [GeV]
T, jet p
1
2
3
4
5
6
7
8
9610×
Eve
nts
/ 2.5
GeV
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
20 30 40 50 60 70 80 90 100 [GeV]
T, jet p
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
100 110 120 130 140 150 160 170 [GeV]lljet m
0.2
0.4
0.6
0.8
1
610×
Eve
nts
/ GeV
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
100 110 120 130 140 150 160 170
[GeV]lljet m
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
S/B < 0.01
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Event Selection 1328
Selection Details
Triggers Single lepton triggers pT, lead > 27 GeVLeptons N` ≥ 2 with pT > 18 GeVZ boson 2 SF OS leptons, with |mll −mZ | < 10 GeVJet (a) Anti-kT jet, radius parameter 0.4,
formed of calorimeter clusters, pT > 20 GeVPre-Higgs m`+`−j < 250 GeV
Select highest pT jet as a-candidate
≥ 2 tracks ≥ 2 tracks ghost associated to the calo jetHiggs SR 120 GeV < m`+`−j < 135 GeV
20 30 40 50 60 70 80 90 100 [GeV]
T, jet p
1
2
3
4
5
6
7
8
9610×
Eve
nts
/ 2.5
GeV
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
20 30 40 50 60 70 80 90 100 [GeV]
T, jet p
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
100 110 120 130 140 150 160 170 [GeV]lljet m
0.2
0.4
0.6
0.8
1
610×
Eve
nts
/ GeV
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
100 110 120 130 140 150 160 170
[GeV]lljet m
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
S/B < 0.01
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Event Selection 1328
Selection Details
Triggers Single lepton triggers pT, lead > 27 GeVLeptons N` ≥ 2 with pT > 18 GeVZ boson 2 SF OS leptons, with |mll −mZ | < 10 GeVJet (a) Anti-kT jet, radius parameter 0.4,
formed of calorimeter clusters, pT > 20 GeVPre-Higgs m`+`−j < 250 GeV
Select highest pT jet as a-candidate
≥ 2 tracks ≥ 2 tracks ghost associated to the calo jetHiggs SR 120 GeV < m`+`−j < 135 GeV
20 30 40 50 60 70 80 90 100 [GeV]
T, jet p
1
2
3
4
5
6
7
8
9610×
Eve
nts
/ 2.5
GeV
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
20 30 40 50 60 70 80 90 100 [GeV]
T, jet p
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
100 110 120 130 140 150 160 170 [GeV]lljet m
0.2
0.4
0.6
0.8
1
610×
Eve
nts
/ GeV
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
100 110 120 130 140 150 160 170
[GeV]lljet m
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
S/B < 0.01
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Event Selection 1328
Selection Details
Triggers Single lepton triggers pT, lead > 27 GeVLeptons N` ≥ 2 with pT > 18 GeVZ boson 2 SF OS leptons, with |mll −mZ | < 10 GeVJet (a) Anti-kT jet, radius parameter 0.4,
formed of calorimeter clusters, pT > 20 GeVPre-Higgs m`+`−j < 250 GeV
Select highest pT jet as a-candidate
≥ 2 tracks ≥ 2 tracks ghost associated to the calo jetHiggs SR 120 GeV < m`+`−j < 135 GeV
20 30 40 50 60 70 80 90 100 [GeV]
T, jet p
1
2
3
4
5
6
7
8
9610×
Eve
nts
/ 2.5
GeV
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
20 30 40 50 60 70 80 90 100 [GeV]
T, jet p
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
100 110 120 130 140 150 160 170 [GeV]lljet m
0.2
0.4
0.6
0.8
1
610×
Eve
nts
/ GeV
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
100 110 120 130 140 150 160 170
[GeV]lljet m
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
S/B < 0.01
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Event Selection 1328
Selection Details
Triggers Single lepton triggers pT, lead > 27 GeVLeptons N` ≥ 2 with pT > 18 GeVZ boson 2 SF OS leptons, with |mll −mZ | < 10 GeVJet (a) Anti-kT jet, radius parameter 0.4,
formed of calorimeter clusters, pT > 20 GeVPre-Higgs m`+`−j < 250 GeV
Select highest pT jet as a-candidate
≥ 2 tracks ≥ 2 tracks ghost associated to the calo jetHiggs SR 120 GeV < m`+`−j < 135 GeV
20 30 40 50 60 70 80 90 100 [GeV]
T, jet p
1
2
3
4
5
6
7
8
9610×
Eve
nts
/ 2.5
GeV
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
20 30 40 50 60 70 80 90 100 [GeV]
T, jet p
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
100 110 120 130 140 150 160 170 [GeV]lljet m
0.2
0.4
0.6
0.8
1
610×
Eve
nts
/ GeV
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
100 110 120 130 140 150 160 170
[GeV]lljet m
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
S/B < 0.01
![Page 43: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/43.jpg)
Hadronic Resonance Tagger 1428
Subtle differences in substructure of a-induced and QCD-induced jets
Substructure techniques commonplace for high-mass resonances,using wide jets and calorimeter information
Can similar techniques be applied using thin jets?
![Page 44: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/44.jpg)
Hadronic Resonance Tagger - Tracking Detector 1528
Pixel resolution∼ 12µm in R − φand ∼ 66 (∼ 77)µm in z (R) in
the barrel (disks)
Strip resolution∼ 16µm in R − φand ∼ 580µm in z(R) in the barrel
(disks)
arXiv:1011.6665
![Page 45: Higgs Boson Decays to Light Scalars at ATLAS · 2020. 10. 26. · ATLAS 2HDM+S h 125!aa Summary Plots 9 28 tan tan 0: 5 Type-II 1 10 [GeV] a m - 6 10 - 5 10 - 4 10 - 3 10 - 2 10 -](https://reader035.vdocuments.site/reader035/viewer/2022071505/6125b60507f42a7792152eca/html5/thumbnails/45.jpg)
Hadronic Resonance Tagger - Substructure Variables 1628
Input variables:
1 ∆Rlead track
2 pT, lead track/pT, tracks3 angularity(2)†
4 U1(0.7)‡
5 M2(0.3)‡
6 τ §2
0 0.05 0.1 0.15 0.2 0.25 0.3
leading track R∆
0.2
0.4
0.6
0.8
1
1.2
1.4
610×
Eve
nts
/ 0.0
05
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.05 0.1 0.15 0.2 0.25 0.3
leading track R∆
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
†arXiv:0807.0234 ‡arXiv:1609.07483 §arXiv:1011.2268
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Hadronic Resonance Tagger - Substructure Variables 1628
Input variables:
1 ∆Rlead track
2 pT, lead track/pT, tracks
3 angularity(2)†
4 U1(0.7)‡
5 M2(0.3)‡
6 τ §2
0 0.2 0.4 0.6 0.8 1 1.2
T, tracks/p
T, leading track p
0.5
1
1.5
2
2.5
610×
Eve
nts
/ 0.0
2
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.2 0.4 0.6 0.8 1 1.2
T, tracks/p
T, leading track p
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
†arXiv:0807.0234 ‡arXiv:1609.07483 §arXiv:1011.2268
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Hadronic Resonance Tagger - Substructure Variables 1628
Input variables:
1 ∆Rlead track
2 pT, lead track/pT, tracks3 angularity(2)†
4 U1(0.7)‡
5 M2(0.3)‡
6 τ §2
0 20 40 60 80 100 120 140 160(0.2)
tracks angularity
1
2
3
4
5
6
7
8
610×
Eve
nts
/ 2
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 20 40 60 80 100 120 140 160(0.2)
tracks angularity
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
†arXiv:0807.0234
‡arXiv:1609.07483 §arXiv:1011.2268
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Hadronic Resonance Tagger - Substructure Variables 1628
Input variables:
1 ∆Rlead track
2 pT, lead track/pT, tracks3 angularity(2)†
4 U1(0.7)‡
5 M2(0.3)‡
6 τ §2
0 0.05 0.1 0.15 0.2 0.25(0.7)
1, tracks U
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
1.8
2
610×
Eve
nts
/ 0.0
05
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.05 0.1 0.15 0.2 0.25(0.7)
1, tracks U
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
†arXiv:0807.0234 ‡arXiv:1609.07483
§arXiv:1011.2268
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Hadronic Resonance Tagger - Substructure Variables 1628
Input variables:
1 ∆Rlead track
2 pT, lead track/pT, tracks3 angularity(2)†
4 U1(0.7)‡
5 M2(0.3)‡
6 τ §2
0 0.05 0.1 0.15 0.2 0.25 0.3(0.3)2, tracks M
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
1.8610×
Eve
nts
/ 0.0
05
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.05 0.1 0.15 0.2 0.25 0.3
(0.3)2, tracks M
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
†arXiv:0807.0234 ‡arXiv:1609.07483
§arXiv:1011.2268
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Hadronic Resonance Tagger - Substructure Variables 1628
Input variables:
1 ∆Rlead track
2 pT, lead track/pT, tracks3 angularity(2)†
4 U1(0.7)‡
5 M2(0.3)‡
6 τ §20 0.1 0.2 0.3 0.4 0.5 0.6
2, tracksτ
0.2
0.4
0.6
0.8
1
1.2
1.4
610×
Eve
nts
/ 0.0
1
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.1 0.2 0.3 0.4 0.5 0.6
2, tracksτ
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
†arXiv:0807.0234 ‡arXiv:1609.07483 §arXiv:1011.2268
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Hadronic Resonance Tagger - Substructure Variables 1628
0 0.05 0.1 0.15 0.2 0.25 0.3
leading track R∆
0.2
0.4
0.6
0.8
1
1.2
1.4
610×
Eve
nts
/ 0.0
05
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.05 0.1 0.15 0.2 0.25 0.3
leading track R∆
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
0 0.2 0.4 0.6 0.8 1 1.2
T, tracks/p
T, leading track p
0.5
1
1.5
2
2.5
610×
Eve
nts
/ 0.0
2
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.2 0.4 0.6 0.8 1 1.2
T, tracks/p
T, leading track p
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
0 20 40 60 80 100 120 140 160(0.2)
tracks angularity
1
2
3
4
5
6
7
8
610×
Eve
nts
/ 2
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 20 40 60 80 100 120 140 160(0.2)
tracks angularity
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
0 0.05 0.1 0.15 0.2 0.25(0.7)
1, tracks U
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
1.8
2
610×
Eve
nts
/ 0.0
05
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.05 0.1 0.15 0.2 0.25(0.7)
1, tracks U
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
0 0.05 0.1 0.15 0.2 0.25 0.3(0.3)2, tracks M
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
1.8610×
Eve
nts
/ 0.0
05
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.05 0.1 0.15 0.2 0.25 0.3
(0.3)2, tracks M
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
0 0.1 0.2 0.3 0.4 0.5 0.6
2, tracksτ
0.2
0.4
0.6
0.8
1
1.2
1.4
610×
Eve
nts
/ 0.0
1
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.1 0.2 0.3 0.4 0.5 0.6
2, tracksτ
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
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Hadronic Resonance Tagger - Substructure Variables 1628
0 0.05 0.1 0.15 0.2 0.25 0.3
leading track R∆
0.2
0.4
0.6
0.8
1
1.2
1.4
610×
Eve
nts
/ 0.0
05
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.05 0.1 0.15 0.2 0.25 0.3
leading track R∆
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
0 0.2 0.4 0.6 0.8 1 1.2
T, tracks/p
T, leading track p
0.5
1
1.5
2
2.5
610×
Eve
nts
/ 0.0
2
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.2 0.4 0.6 0.8 1 1.2
T, tracks/p
T, leading track p
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
0 20 40 60 80 100 120 140 160(0.2)
tracks angularity
1
2
3
4
5
6
7
8
610×
Eve
nts
/ 2
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 20 40 60 80 100 120 140 160(0.2)
tracks angularity
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
0 0.05 0.1 0.15 0.2 0.25(0.7)
1, tracks U
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
1.8
2
610×
Eve
nts
/ 0.0
05
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.05 0.1 0.15 0.2 0.25(0.7)
1, tracks U
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
0 0.05 0.1 0.15 0.2 0.25 0.3(0.3)2, tracks M
0.2
0.4
0.6
0.8
1
1.2
1.4
1.6
1.8610×
Eve
nts
/ 0.0
05
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.05 0.1 0.15 0.2 0.25 0.3
(0.3)2, tracks M
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
0 0.1 0.2 0.3 0.4 0.5 0.6
2, tracksτ
0.2
0.4
0.6
0.8
1
1.2
1.4
610×
Eve
nts
/ 0.0
1
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0 0.1 0.2 0.3 0.4 0.5 0.6
2, tracksτ
0.80.9
11.11.2
Dat
a / B
kgd
Bkgd MC Stat
S/B increase ∼ 5×
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Hadronic Resonance Tagger - Multi-Layer-Perceptron 1728
A Multi-Layer-Perceptron (MLP) is used to combine the substructurevariables into a single, optimal summary-statistic
An MLP is machine-learning algorithm: a function, with many freeparameters, which are fixed during “training”
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Hadronic Resonance Tagger - Regression 1828
Not a standard classificationproblem, due to the spectrum ofsignals
Solved by training a regressionMLP to predict ma
ma hypothesis informs classifierwhich part of the mass space toconsider
∼ 13% improvement in theexpected S/
√B
0.5 1 1.5 2 2.5 3 3.5 4
MLP Mass Estimator
200
400
600
800
1000
1200
1400
310×
Eve
nts
/ 0.1
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
100×(H)SM
σ(H)=σZa)=100%→B(H
0.5 1 1.5 2 2.5 3 3.5 4
MLP Mass Estimator
0.60.8
11.21.4
Dat
a / B
kgd
Bkgd MC Stat
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Hadronic Resonance Tagger - Classification 1928
0 0.05 0.1 0.15 0.2 0.25 0.3
MLP Discriminant
210
310
410
510
610
710
810
Eve
nts
/ 0.0
1
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
(H)SM
σ(H)=σZa)=100%→B(H
0 0.05 0.1 0.15 0.2 0.25 0.3
MLP Discriminant
0.60.8
11.21.4
Dat
a / B
kgd
Bkgd MC Stat
Cut chosen to optimise S/√B,
assuming all a masses equallylikely: MLP > 0.052
Bkgd eff = 0.761% (MLP)
a mass / GeV 0.5 0.75 1 1.5 2 2.5 3 3.5 4
MLP Eff (%) 45.9 42.1 38.2 31.5 25.1 15.4 8.06 5.70 1.88
MLP S/√B Change 5.3 4.8 4.4 3.6 2.9 1.8 0.92 0.65 0.22
MLP S/B Change 60 55 50 41 33 20 11 7.5 2.5
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Background Estimate 2028
MC is reweighted to data in: pT, Ntracks & U1(0.7)
Four regions are defined in the m`+`−j −MLP plane:
A: 120 < m`+`−j < 135 GeV and 0.052 < MLPB: 155 < m`+`−j < 175 GeV and 0.052 < MLPC: 120 < m`+`−j < 135 GeV and 0.011 < MLP < 0.052D: 155 < m`+`−j < 175 GeV and 0.011 < MLP < 0.052
Background estimate:
MC-based correction factor accounts for 13% correlation betweenm`+`−j and MLP
Background estimate of 82400, with 3.5% stat uncertainty
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Background Estimate 2028
MC is reweighted to data in: pT, Ntracks & U1(0.7)
Four regions are defined in the m`+`−j −MLP plane:
A: 120 < m`+`−j < 135 GeV and 0.052 < MLPB: 155 < m`+`−j < 175 GeV and 0.052 < MLPC: 120 < m`+`−j < 135 GeV and 0.011 < MLP < 0.052D: 155 < m`+`−j < 175 GeV and 0.011 < MLP < 0.052
Background estimate:
AABCD Est.SR =
BdataCdata
Ddata︸ ︷︷ ︸Data-driven ABCD Estimate
× AMCBMCCMCDMC︸ ︷︷ ︸
MC-based ABCD Correction Factor
MC-based correction factor accounts for 13% correlation betweenm`+`−j and MLP
Background estimate of 82400, with 3.5% stat uncertainty
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Background Estimate 2028
MC is reweighted to data in: pT, Ntracks & U1(0.7)
Four regions are defined in the m`+`−j −MLP plane:
A: 120 < m`+`−j < 135 GeV and 0.052 < MLPB: 155 < m`+`−j < 175 GeV and 0.052 < MLPC: 120 < m`+`−j < 135 GeV and 0.011 < MLP < 0.052D: 155 < m`+`−j < 175 GeV and 0.011 < MLP < 0.052
Background estimate:
AABCD Est.SR =
BdataCdata
Ddata︸ ︷︷ ︸Data-driven ABCD Estimate
× AMCBMCCMCDMC︸ ︷︷ ︸
MC-based ABCD Correction Factor
MC-based correction factor accounts for 13% correlation betweenm`+`−j and MLP
Background estimate of 82400, with 3.5% stat uncertainty
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Validation of Background Estimate 2128
0 2 4 6 8 10 12 14
20
40
60
80
100
120
310×
Eve
nts
DataBackground
ATLAS-1=13 TeV, 139 fbs
<11
0 G
eVllj
et10
0 G
eV<
m
<12
0 G
eVllj
et11
0 G
eV<
m
<13
5 G
eVllj
et12
0 G
eV<
m
<15
0 G
eVllj
et13
5 G
eV<
m
<15
5 G
eVllj
et15
0 G
eV<
m
<11
0 G
eVllj
et10
0 G
eV<
m
<12
0 G
eVllj
et11
0 G
eV<
m
<13
5 G
eVllj
et12
0 G
eV<
m
<15
0 G
eVllj
et13
5 G
eV<
m
<15
5 G
eVllj
et15
0 G
eV<
m
<11
0 G
eVllj
et10
0 G
eV<
m
<12
0 G
eVllj
et11
0 G
eV<
m
<13
5 G
eVllj
et12
0 G
eV<
m
<15
0 G
eVllj
et13
5 G
eV<
m
<15
5 G
eVllj
et15
0 G
eV<
m
4−2−024T
otσ
(Dat
a -
Bkg
d) /
MLP>0.052 0.034<MLP<0.052 0.026<MLP<0.034
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Statistical Interpretation 2228
Single-bin cut-and-count analysis strategy adopted
Expected background:
Efficiency: (8.45± 0.22)× 10−5
Yield: 82400± 2900
Expected Signal Efficiencies and Yields (AssumingBR(h125 → Za) = 100%, and Pythia8 a BRs with tanβ = 1)
a mass / GeV 0.5 0.75 1 1.5 2 2.5 3 3.5 4
Efficiency (%) 3.3 2.8 2.9 2.5 2.0 1.3 0.69 0.51 0.14Yield (×1000) 26 22 22 20 16 10 5.4 4.0 1.1
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Results 2328
MLP > 0.052
100 110 120 130 140 150 160 170 [GeV]lljetm
10000
20000
30000
40000
50000
Eve
nts
/ 5 G
eV
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
(H)SM
σ(H)=σZa)=100%→B(H
100 110 120 130 140 150 160 170
[GeV]lljetm
0.60.8
11.21.4
Dat
a / B
kgd
Bkgd MC Stat
Background: 82400± 3700 Observed events: 82908
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Model-Independent Limits 2428
Fits to observed yield used to set 95% CLs upper limits
σ(h125)BR(h125 → Zηc) <110 pb
σ(h125)BR(h125 → ZJ/ψ) <100 pb
h125 → Za limits calculated for BR of a to gluons/quarks of 100%
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5
[GeV]am
10
210
310
Za)
[pb]
→B
(H×
(H)
σ95
% C
L U
pper
Lim
it on
100%×(H)SMσObserved
Expected
σ1
σ2
ATLAS-1=13 TeV, 139 fbs
gg)=100%→B(a
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5
[GeV]am
10
210
310
Za)
[pb]
→B
(H×
(H)
σ95
% C
L U
pper
Lim
it on
100%×(H)SMσObserved
Expected
σ1
σ2
ATLAS-1=13 TeV, 139 fbs
)=100%ss→B(a
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Outlook and Conclusion
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h125 → Za Uncertainty Breakdown 2528
Impact of uncertainties on σ(pp → h125)BR(h125 → Za)/pb forthree signal hypotheses
a mass 0.5 GeV 1.5 GeV 2.5 GeV
Total Uncertainty 8.3 10.7 20.3Total Statistical Uncertainty 0.6 0.8 1.6Total Systematic Uncertainty 8.2 10.7 20.2
Signal Systematic Uncertainties
Jet Energy Scale 1.3 1.5 1.5Parton Shower 1.4 1.4 1.4
Luminosity, Pileup, Trigger, Leptons, & JVT 0.2 0.3 0.5MC Statistics 0.2 0.2 0.6
Renormalization Scale 0.1 < 0.1 0.2Acceptance 0.1 < 0.1 0.2
Background Systematic Uncertainties
MC Statistics 6.4 8.4 15.8Parton Shower and ME 3.9 5.1 9.6Renormalization Scale 3.4 4.4 8.3
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h125 → Za Uncertainty Breakdown 2528
Impact of uncertainties on σ(pp → h125)BR(h125 → Za)/pb forthree signal hypotheses
a mass 0.5 GeV 1.5 GeV 2.5 GeV
Total Uncertainty 8.3 10.7 20.3Total Statistical Uncertainty 0.6 0.8 1.6Total Systematic Uncertainty 8.2 10.7 20.2
Signal Systematic Uncertainties
Jet Energy Scale 1.3 1.5 1.5Parton Shower 1.4 1.4 1.4
Luminosity, Pileup, Trigger, Leptons, & JVT 0.2 0.3 0.5MC Statistics 0.2 0.2 0.6
Renormalization Scale 0.1 < 0.1 0.2Acceptance 0.1 < 0.1 0.2
Background Systematic Uncertainties
MC Statistics 6.4 8.4 15.8Parton Shower and ME 3.9 5.1 9.6Renormalization Scale 3.4 4.4 8.3
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h125 → Za Uncertainty Breakdown 2528
Impact of uncertainties on σ(pp → h125)BR(h125 → Za)/pb forthree signal hypotheses
a mass 0.5 GeV 1.5 GeV 2.5 GeV
Total Uncertainty 8.3 10.7 20.3Total Statistical Uncertainty 0.6 0.8 1.6Total Systematic Uncertainty 8.2 10.7 20.2
Signal Systematic Uncertainties
Jet Energy Scale 1.3 1.5 1.5Parton Shower 1.4 1.4 1.4
Luminosity, Pileup, Trigger, Leptons, & JVT 0.2 0.3 0.5MC Statistics 0.2 0.2 0.6
Renormalization Scale 0.1 < 0.1 0.2Acceptance 0.1 < 0.1 0.2
Background Systematic Uncertainties
MC Statistics 6.4 8.4 15.8Parton Shower and ME 3.9 5.1 9.6Renormalization Scale 3.4 4.4 8.3
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What Could be Achieved? 2628
Not ATLAS work
Relevant uncertainties combined in quadrature, and limits onσ(pp → h125)BR(h125 → Za)/σSM(pp → h125) scaled down linearly,
assuming BR(a → gg) = 100%
MC Stat Modelling 0.5 GeV 1.5 GeV 2.5 GeV
3 3 31% 39% 72%7 3 20% 26% 46%7 7 7.5% 8.3% 9.7%
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How to Generate Enough MC? 2728
Generate more MC?
Fully data-driven background model?
Using a Generative Adversarial Network (GAN), data can besimulated from a baseline sample (arXiv:1406.2661)
The GAN consists of two parts:
The generator, which generates data based on random numbersThe discriminator, which attempts to discriminate the generated datafrom the baseline sample
Each ‘event’ takes ∼ms, as opposed to ∼mins
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Summary 2828
100 110 120 130 140 150 160 170 [GeV]lljetm
10000
20000
30000
40000
50000
Eve
nts
/ 5 G
eV
DataBackground
Za (0.5 GeV)→HZa (1.5 GeV)→HZa (2.5 GeV)→H
ATLAS-1=13 TeV, 139 fbs
(H)SM
σ(H)=σZa)=100%→B(H
100 110 120 130 140 150 160 170
[GeV]lljetm
0.60.8
11.21.4
Dat
a / B
kgd
Bkgd MC Stat0 0.5 1 1.5 2 2.5 3 3.5 4 4.5
[GeV]am
10
210
310
Za)
[pb]
→B
(H×
(H)
σ95
% C
L U
pper
Lim
it on
100%×(H)SMσObserved
Expected
σ1
σ2
ATLAS-1=13 TeV, 139 fbs
gg)=100%→B(a
0 0.5 1 1.5 2 2.5 3 3.5 4 4.5
[GeV]am
10
210
310
Za)
[pb]
→B
(H×
(H)
σ95
% C
L U
pper
Lim
it on
100%×(H)SMσObserved
Expected
σ1
σ2
ATLAS-1=13 TeV, 139 fbs
)=100%ss→B(a
First search performed for h125 → Za→ `+`−j
Made possible by first use of track-based substructure in dual-stageMLP for light hadronic resonance identification
Limits set, starting at BR of 31%
This fills in two gaps in the previous search programme: smallBR(h125 → aa), and suppression of a decays to down-type fermions
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Backup Slides
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Hadronic Resonance Tagger - Track Selection 2928
Ghost-Association†
Tracks are associated to the calorimeter jet using ghost-association
The anti-kT (R = 0.4) clustering algorithm is rerun on thecalorimeter clusters, including the tracks
The tracks are treated as having very low pT so they do not influencethe calorimeter jet
Track Selection‡
Track quality requirements: ≥ 7 silicon hits, ≤ 1 shared pixel cluster,≤ 2 shared strip clusters on same layer, ≤ 1 pixel hole & ≤ 2 siliconholes
Vertexing requirements: |d0| < 2 mm & |∆z0 sin θ| < 3 mm
Jets are required to have ≥ 2 tracks surviving these requirements
†arXiv:0707.1378 †arXiv:1704.07983
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Hadronic Resonance Tagger - ROC Curve 3028
5−10 4−10 3−10 2−10 1−10 1Background Efficiency
0
0.1
0.2
0.3
0.4
0.5
0.6
0.7
0.8
0.9
1
Sig
nal E
ffici
enci
esZa (0.5 GeV)→HZa (0.75 GeV)→HZa (1 GeV)→HZa (1.5 GeV)→HZa (2 GeV)→HZa (2.5 GeV)→HZa (3 GeV)→HZa (3.5 GeV)→HZa (4 GeV)→H
Background
SimulationATLAS-1=13 TeV, 139 fbs