higgs factory workshop fermilab , 14-16 2012 experimental summary alain blondel
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v. v. Higgs Factory Workshop Fermilab , 14-16 2012 Experimental summary Alain Blondel. Why a Higgs factory? Question 1: is the H(126) The Higgs boson -- do we know well enough from LHC ? -- how precisely do we need to know before we are convinced? - PowerPoint PPT PresentationTRANSCRIPT
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v v
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Higgs Factory Workshop Fermilab, 14-16 2012
Experimental summary Alain Blondel
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Why a Higgs factory? Question 1: is the H(126) The Higgs boson -- do we know well enough from LHC? -- how precisely do we need to know before we are convinced?
Question 2: is there something else in sight? -- known unknown facts need answer neutrino masses, (Dirac, and/or Majorana, sterile and right handed, CPV, MH..) non baryonic dark matter, Accelerated expansion of the Universe Matter-antimatter Asymmetry -- can the Higgs be used as search tool for new physics that answer these questions? -- precision measurements sensitive to the existence of new particles through loops -- how precisely do we need to know before we are convinced?
Question 3: which Higgs factories ? -- HL-LHC -- (V)HE-LHC -- mu+mu- -- gamma-gamma -- e+e- : linear and circular
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1. Scalar boson H(126) has been discovered!
2. LHC has done better than projected here is a plot from ATLAS in 2005,
expected 3-4 with 10fb-1 at 14TeV
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It already looks like a Higgs Boson
Spin-parity: looks like 0+!
Couplings scale ~ mass… with scale = v
Red line = SM, dashed line = best fitJE & Tevong You, arXiv:1303.3879
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Once the Higgs boson mass is known, the Standard Model is almost entirely defined.
-- with the notable exception of neutrino masses, nature & mixings but we expect these to be almost completely decoupled from Higgs observables. (true?)
Does H(125.9)Fully accounts for EWSB (W, Z couplings)?Couples to fermions?Accounts for fermion masses?Fermion couplings masses?∝Are there others?Quantum numbers?SM branching fractions to gauge bosons?Decays to new particles?All production modes as expected?Implications of MH ≈ 126 GeV?Any sign of new strong dynamics?
your Banker’s question: What precision is needed to discover /rule out something interesting?
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Some guidance from theorists:
New physics affects the Higgs couplingsSUSY , for tanb = 5
Composite Higgs
Top partners
Other models may give up to 5% deviations with respect to the Standard Model
Sensitivity to “TeV” new physics needs per-cent to sub-per-cent accuracy on couplings for 5 sigma discovery.
LHC discovery/(or not) at 13 TeV will be crucial to understand the strategy for future collider projects
R.S. Gupta, H. Rzehak, J.D. Wells, “How well do we need to measure Higgs boson couplings?”, arXiv:1206.3560 (2012)H. Baer et al., “Physics at the International Linear Collider”, in preparation, http://lcsim.org/papers/DBDPhysics.pdf
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The LHC is a Higgs Factory !1M Higgs already produced – more than most other Higgs factory projects.15 Higgs bosons / minute – and more to come (gain factor 3 going to 13 TeV)
Difficulties: several production mechanisms to disentangle and significant systematics in the production cross-sections prod . Challenge will be to reduce systematics by measuring related processes.
if observed prod (gHi )2(gHf)2 extract couplings to anything you can see or produce from H if i=f as in WZ with H ZZ absolute normalization
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Couplings at HL-LHC: ATLAS
MC Samples at 14 TeV from Fast-Sim.Truth with smearing: best estimate of physics
objects dependency on pile-up Validated with full-sim. up to m~70
Analyses included in ATLAS study:H gg 0-jet and VBFH tt VBF lep-lep and lep-hadH ZZ 4lH WW lnln 0-jet and VBFWH/ZH ggttH gg (ttH mm) Direct top Y couplingH mm Second generation fermion couplingHH bb gg Higgs Self-Couplings
November/14/2012 F.Cerutti - Higgs Factory9
ttH gg
Very Robust channel
Good S/BStatistically limited
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HL-LHC (3 ab-1 at 14 TeV): Highest-priority recommendation from European Strategy
c) The discovery of the Higgs boson is the start of a major programme of work to measure this particle’s properties with the highest possible precision for testing the validity of the Standard Model and to search for further new physics at the energy frontier. The LHC is in a unique position to pursue this programme.
LHC HL-LHC End date 2021 2030-35?NH 1.7 x 107 1.7 x 108
DmH (MeV) 100 50ΔgHgg/gHgg 6.5 – 5.1% 5.4 – 1.5% ΔgHgg/gHgg 11 – 5.7% 7.5 – 2.7%ΔgHww/gHww 5.7 – 2.7% 4.5 – 1.0%ΔgHZZ/gHZZ 5.7 – 2.7% 4.5 – 1.0%ΔgHHH/gHHH -- < 30% ΔgHmm/gHmm <30% <10%ΔgHtt/gHtt 8.5 – 5.1% 5.4 – 2.0%ΔgHcc/gHcc -- --ΔgHbb/gHbb 15 – 6.9% 11 – 2.7%ΔgHtt/gHtt 14 – 8.7% 8.0 – 3.9%
? ? ?
In bold, theory uncertainty are assumed to be divided by a factor 2,experimental uncertainties are assumed to scale with 1/√L,and analysis performance are assumed to be identical as today
Coupling measurements with precision : in the range 6-15% with LHC - 300 fb-1
in the range 1-10% with HL-LHC - 3000 fb-1
No measurement gHcc and H
Assume no exotic Scalar decays
NB: at LEP theory errors improved by factor 10 or more….
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b
m
t
Full HL-LHCZ
W
Ht
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Higgs Factories Dreams
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gg collider
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m+m- Collider vs e+e- Collider ? • A m+m- collider can do things that an e+e- collider cannot do– Direct coupling to H expected to be larger by a factor mm/me
• ,jh [peak = 70 pb at tree level]
– Can it be built + beam energy spread dE/E be reduced to 3×10-5 ?• 4D+6D Cooling needed!• For dE/E = 0.003% (dE ~ 3.6 MeV, H ~ 4 MeV)• no beamstrahlung, reduced bremsstrahlung
– Corresponding luminosity ~ 1031-32 cm-2s-1
– Expect 2300-23000 Higgs events in 100 pb-1/ year– Using g-2 precession, beam energy and energy spectrum
• Can be measured with exquisite precision (<10 keV)– From the electrons of muon decays
– Then measure the detailed lineshape of the Higgs at √s ~ mH
• Five-point scan, 50 + 100 + 200 + 100 + 50 pb-1
– Precision from H→bb and WW :
14 Nov 2012 HF2012 : Higgs beyond LHC (Experiments) 15
( ) ( )HeeH -+-+ mm 40000
(mH), TLEP
, W, …
, W, …
mH Peak H
0.1 MeV 0.6 pb 0.2 MeV
10-6 2.5% 5%
√s
(pb)
[16,17]
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Wyatt, Cracow
ILC:
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ILC in a Nutshell
29.10.12
Damping RingsPolarised electron source
Polarised positronsource
Ring to Main Linac (RTML)(inc. bunch compressors)
e- Main Linac
Beam Delivery System (BDS) & physics detectors
e+ Main Linac
Beam dump
not too scale
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CLIC Layout at 3 TeV
D. Schulte, CLIC, HF 2012, November 2012
Drive Beam Generation Complex
Main Beam Generation Complex
140 ms train length - 24 24 sub-pulses4.2 A - 2.4 GeV – 60 cm between bunches
240 ns
24 pulses – 101 A – 2.5 cm between bunches
240 ns 5.8
ms
Drive beam time structure - initial Drive beam time structure - final
Goal: Lepton energy frontier
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Circular e+e- colliders to study THE BOSON X(126)
a very young concept (although there were many predecessors)
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KEK
12.7 km
80 km ring in KEK area
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105 km tunnel near FNAL
H. Piekarz, “… and … path to the future of high energy particle physics,” JINST 4, P08007 (2009)
(+ FNAL plan BfromR. Talman)
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What is a (CHF + SppC)
Circular Higgs factory (phase I) + super pp collider (phase II) in the same tunnel
2012-11-15 HF2012 22
e-e+ Higgs Factory
pp collider
China Higgs Factory (CHF)
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prefeasibility assessment for an 80km project at CERNJohn Osborne and Caroline Waiijer ESPP contr. 165
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LEP3, TLEP(e+e- -> ZH, e+e- → W+W-, e+e- → Z,[e+e-→ t )
key parametersLEP3 TLEP
circumference 26.7 km 80 kmmax beam energy 120 GeV 175 GeVmax no. of IPs 4 4 luminosity at 350 GeV c.m. - 1.3x1034 cm-2s-1 luminosity at 240 GeV c.m. 1034 cm-2s-1 4.8x1034 cm-2s-1 luminosity at 160 GeV c.m. 5x1034 cm-2s-1 1.6x1035 cm-2s-1 luminosity at 90 GeV c.m. 2x1035 cm-2s-1 5.6 1035 cm-2s-1
at the Z pole repeating LEP physics programme in a few minutes…
10-40 times ILC lumi
at ZH thresh.
2-8 times ILC lumi
at ZH thresh.
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Performance of e+ e- colliders • Luminosity : Circular colliders can have several IP’s
Notes :• Lumi upgrade (×3) now envisioned at ILC : luminosity is the key at low energy!• Crossing point between circular and linear colliders ~ 400 GeV• With fewer IP’s expect luminosity of facility to scale approx as (NIP)0.5 – 1
TLEP : Instantaneous lumi at each IP (for 4 IP’s) Instantaneous lumi summed over 4 IP’sZ, 2.1036
WW, 6.1035
HZ, 2.1035
tt , 5.1034
R. Aleksan
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For a light Higgs it is produced by the “higgstrahlung” process close to thresholdProduction xsection has a maximum at near threshold ~200 fb 1034/cm2/s 20’000 HZ events per year.
e+
e-
Z*
Z
H
For a Higgs of 125GeV, a centre of mass energy of 240GeV is sufficient kinematical constraint near threshold for high precision in mass, width, selection purity
Z – tagging by missing mass
Higgs Production Mechanism in e+ e- collisions
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e+
e-
Z*
Z
H
Z – tagging by missing mass
ILC
total rate gHZZ2
ZZZ final state gHZZ4/ H
measure total width H
empty recoil = invisible width‘funny recoil’ = exotic Higgs decayeasy control below theshold
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1. Similar precisions to the 250/350 GeV Higgs factory for W,Z,b,g,tau,charm, gamma and total and invisible width
2. ttH coupling possible with similar precision as HL-LHC (4%)
3. Higgs self coupling also very difficult… precision 30% at 1 TeV similar to HL-LHC prelim. estimate 10-20% at 3 TeV (CLIC) For the study of H(126) alone, the high energy e+e- collider is not compelling
w.r.t. one working at 240 GeV.
other motivation is new particle found (or inferrred) at LHC for which e+e- collisions bring substantial new information
Higgs Physics with high-energy e+e- colliders
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Higgs factory performancesPrecision on couplings, cross sections, mass, width, …
Summary of the ICFA HF2012 workshop (FNAL, Nov. 2012) arxiv1302:3318
Bestprecision
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• Same assumptions as for HL-LHC for a sound comparison– Assume no exotic decay for the SM scalar
• ILC complements HL-LHC for (gHcc, H, inv) – TLEP reaches the sub-per-cent precision (>1 TeV BSM Physics)
J. Ellis et al.Progress on the theoretical side also needed
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Performance Comparison
• Same conclusion when H is a free parameter in the fit
TLEP : sub-percent precision, adequate for BSM Physics sensitivity beyond 1 TeV
m+m- ILC350 ILC1000 TLEP240 TLEP350
5% 5% 3% 2% 1%
Expected precision on the total width
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Precision tests of EWSB
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LEP ILC TLEP√s ~ mZ Mega-Z Giga-Z Tera-Z
#Z / yearPolarization
Precision vs LEP1/SLDError on mZ, Z
2×107
Yes (T)1
2 MeV
Few 109
Easy1/5 to 1/10
–
1012 (>1011 b,c,t)Yes (T,L)~1/100
< 0.1 MeV
√s ~ 2mW
#W pairs / yearPolarizationError on mW
Few dozensNo
220 MeV
2×105
Easy7 MeV
2.5×107
Yes (T)0.5 MeV
√s = 240 GeV Oku-W
# W pairs / 5 yearsError on mW
4×104
33 MeV4×106
3 MeV2×108
0.5 MeV
√s ~ 350 GeV Mega-Top
# top pairs / 5 yearsError on mtopError on lt
– – –
100,00030 MeV
40%
500,00013 MeV
15%
Asymmetries, Lineshape
WW threshold scan
WW production
tt threshold scan
TLEP : Repeat the LEP1 physics programme every 15 mn Transverse polarization up to the WW threshold
Exquisite beam energy determination (10 keV) Longitudinal polarization at the Z pole
Measure sin2θW to 2.10-6 from ALR
Statistics, statistics …
-
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The Next-to-Next Facility
• TLEP can be upgraded to VHE-LHC– Re-use the 80 km tunnel to reach 80-100 TeV pp collisions
• Or re-use the LHC tunnel to reach 27-33 TeV pp collisions– In both cases, need to develop 16-20 T SC magnets
• Needs lots of R&D and time (TLEP won’t delay VHE-LHC)– First consistent conceptual design
• Using multiple SC materials
0
20
40
60
80
0 20 40 60 80 100 120
y (m
m)
x (mm)
HTS
HTS
Nb3Snlow j
Nb-Ti
Nb-TiNb3Snlow j
Nb3Snlow j
Nb3Snhigh j
Nb3Snhigh j
Nb3Snhigh j
Nb3Snhigh jMaterial N. turns Coil fraction Peak field Joverall (A/mm2)
Nb-Ti 41 27% 8 380 Nb3Sn (high Jc) 55 37% 13 380 Nb3Sn (Low Jc) 30 20% 15 190 HTS 24 16% 20.5 380
L. Rossi
20 T field!
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The Next-to-Next Facility
• Performance comparison for the SM scalar – Measurement of the more difficult couplings : gHtt (Yukawa) and gHHH (self)
• In e+e- collisions
• In pp collisions
H
H
M. Mangano
H H
H
HE-LHC VHE-LHC
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Patrick Janot
Performance comparison for the SM scalar (cont’d)u Only ttH and HHH couplings
l Other couplings benefit only marginally from high √s
l VHE-LHC : Largest New Physics reach and best potential for gHtt and gHHH
The Next-to-Next Facility (5)
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√s, NP
√s, NP
ILC500, HL-LHC ILC1TeV, HE-LHC CLIC3TeV, VHE-LHC
(NP=New Physics reach)
HF2012
TLEP
J. Wells et al.arXiV:1305.6397
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At the moment we do not know for sure what is the most sensible scenario
LHC offered 3 possible scenarios: (could not lose)
Discover that there is nothing in this energy range.
This would have been a great surprise and a great discovery!
Discover SM Higgs Boson and that nothing else is within reach
Most Standard scenariogreat discovery!
Discover many new effects or particles great discovery!
NO So far we are here Keep looking in 13/14 TeV data!
Answer in 2018
High precision High energy
But….
BE PREPARED!
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Conclusions• Discovery of H(126) and European Strategy brought momentum
– News ideas emerging for scalar factories and beyond• Prospects for the future look very promising• The HL-LHC is already an impressive Higgs Factory.
• It is important to choose the right machine for the future– Cannot afford to be wrong for 10 billion CHF !-- Must bring order of magnitude improvement wrt LHC
• Results of the LHC run at 14 TeV will be a necessary and precious input– Towards an ambitious medium and long term vision – In Europe: Decision to be taken by 2018 -- design study recommended and being organized
• A large e+e- storage ring collider is a very promising option– Precision and high luminosity– Most mature technology– A first step towards a 100 TeV proton proton collider and a long term vision.
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Design Study is now starting ! Visit http://tlep.web.cern.ch and suscribe for work, informations, newsletter
Global collaboration: next meeting at Fermilab, collaborators from Europe, US, Japan, China
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