on the validity of the effective field theory for dark matter searches at the lhc
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On the Validity of the Effective Field Theory for Dark Matter Searches at the LHC. Giorgio Busoni. Based on : G.B., Andrea De Simone, Enrico Morgante, Antonio Riotto arXiv:1307.2253 G.B., Andrea De Simone, Johanna Gramling, Enrico Morgante, Antonio Riotto arXiv:1402.1275. - PowerPoint PPT PresentationTRANSCRIPT
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On the Validity of the Effective Field Theory for Dark Matter Searches at the LHCGIORGIO BUSONI
BASED ON: G.B . , ANDREA DE S IMONE, ENRICO MORGANTE, ANTONIO R IOTTO ARXIV:1307.2253G.B. , ANDREA DE S IMONE, JOHANNA GRAMLING, ENRICO MORGANTE, ANTONIO R IOTTO ARXIV:1402.1275
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Outline of Presentation On the Validity of the Effective Field Theory for Dark Matter Searches at the LHC
1. Introduction to Dark Matter Searches
2. Introduction to EFT
3. Collider Searches, general considerations, some estimates
4. Importance of EFT cutoff
5. How to deal with EFT in collider searches
6. Conclusions and future…
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Introduction to DM Searches: Observation Evidence1. Galaxy Rotation Curves2. Velocity Dispersion of Galaxies3. Gravitational Lensing4. CMB5. More…
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Dark Matter Searches3 kind of searches:
1. Direct Searches
2. Indirect Searches
3. Collider Searches
We can use the crossing symmetry to relate the 3 searches
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Dark Matter Direct SearchDM Direct Searches Direct DM-Barion interactions
Deep underground laboratories reduce the background from cosmic rays
Search for energy deposited in detectors
Experiments: SNOLAB, XENON, DAMA, SIMPLE, PICASSO
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Dark Matter Direct SearchDM Direct Searches Direct DM-Barion interactions
Deep underground laboratories reduce the background from cosmic rays
Search for energy deposited in detectors
Experiments: SNOLAB, XENON, DAMA, SIMPLE, PICASSO
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Dark Matter Indirect SearchIndirect detection experiments WIMP annihilation or decay
Annihilation process happens at energies
WIMPs Majorana particles annihilate to SM particle/antiparticle pairs
If WIMP unstable could decay into SM particles identify excesses in fluxes of cosmic rays:
Problem: Background known with less precision!!!
Experiments: PAMELA, AMS, AMANDA, ICECUBE, ANTARES
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Dark Matter Indirect SearchIndirect detection experiments WIMP annihilation or decay
Annihilation process happens at energies
WIMPs Majorana particles annihilate to SM particle/antiparticle pairs
If WIMP unstable could decay into SM particles identify excesses in fluxes of cosmic rays:
Problem: Background known with less precision!!!
Experiments: PAMELA, AMS, AMANDA, ICECUBE, ANTARES
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Collider DM SearchesSearch for mono-Jet/photon events with missing
DM would look like missing energy
Background due to
Background known with better precision
No energy threshold
Higher energies involved
Cannot determine if WIMP is stable or not
Usually constrained in model-independent way using EFT Bounds on effective operators
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Collider DM SearchesSearch for mono-Jet/photon events with missing
DM would look like missing energy
Background due to
Background known with better precision
No energy threshold
Higher energies involved
Cannot determine if WIMP is stable or not
Usually constrained in model-independent way using EFT Bounds on effective operators
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Introduction to EFT: Simple Toy Model
Let’s consider a Lagrangian with 2 light fermions and 1 heavy scalar as mediator:
If , for low energy processes we can “simplify” the model by Integrating Out the heavy scalar mediator by using the Euler-Lagrangian Equations for
At order 0, we obtain
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Introduction to EFT: Simple Toy Model
Operators of Dimension 6 appear in the Lagrangian:
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Introduction to EFT: Simple Toy Model
We can obtain the same result by considering the amplitude for the UV model, and expanding the propagator in powers of (s-channel process)
From this expression we can easily understand that this kind of approximation is good only if
This, if also (or at east ), is verified in Direct Searches, where kinetic energy is , and therefore Indirect Searches, where
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Collider Searches, General considerationsIn general for the EFT to be valid we require
From the previous 2 slides, by Matching the 2 expressions of the propagator, we obtain
We want the Mediator to be heavier than DM particle, and the new coupling not to be strong:
Matching also requires:
2-2 process: DM is produced on shell
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Some Estimates 2-3 body processes: mono-photon/jet + DM pair
The momentum transfer is
Simple estimate averaging on the PDF
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Estimates
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EFT Cutoff The cross sections for the process are:
The corresponding cross sections for are obtained by integrating over the PDFs and summing over the possible quarks:
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Extract Limits on Lambda From experiment, we get upper bound on the number of events
The number of events is calculated as luminosity times cross section:
We can take out of the integral and solve the inequality
This procedure would be ok if all the events in the integration domain would statisfy
This is not the case at LHC!
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Extract Limits on Lambda For > , we don’t know if the Eft is a good approximation of the unknown UV theory.It may happen that or also that .To be conservative, we choose the worst case: for such events.Then
With this procedure we can obtain limits respecting the EFT assumption from the limits obtained without taking the EFT assumption into account!
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EFT Cutoff Up to which value of is the EFT approach valid? In order to quantify our ignorance about this, we study the ratio
For as a function of and .
Typical experimental cuts, and
Not putting a cutoff May produce up to O(1) Errors
Of course the precision definition of the cutoff scale is somewhat arbitrary, and one should consider these results with a grain of salt
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EFT Cutoff: Operators ConsideredName Operator Coefficient
D1,(D3)
D4,(D2)
D1’,(D3’)
D4’,(D2’)
D5,(D7)
D8,(D6)
D9,(D10)
D11
D12
D13
D14
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EFT Cutoff: Analytic Results
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EFT Cutoff: Analytic Results
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EFT Cutoff: Analytic Results
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EFT Cutoff: Analytic Results
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EFT Cutoff: Analytic Results vs Numeric Results (MadGraph)
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EFT Cutoff: Numeric ResultsUse MadGraph
Simulate several variations from the analytically calculated scenario
We simulate a scenario close to the cuts used in the ATLAS monojet analysis
Leading jet is allowed to come from either a gluon or a quark being radiated
Leading jet cut is changed from 500 GeV to 350 GeV
A second jet is allowed and its range in is enlarged to
Allowing not only for a gluon jet but also taking into account the possibility of a quark jet changes the contours appreciably
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EFT Cutoff: Numeric Results vs Experimental Limits
Let’s now compare the contours we obtained with the actual experimental limits.
As you can see, we are not in the safe situation where the actual limits are well above the 75% contours
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EFT Cutoff: Numeric Results vs Experimental Limits
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How to deal with EFT in collider searchesVery naively, the number of signal events in a given EFT model has to be less than the experimental observation,
The cross section due to an operator of mass dimension scale like , so
and the experimental lower bound in the scale of the operator becomes
The fact that a fraction of the events involve a transfer momentum exceeding the cutoff scale of the EFT means that the number of signal events for placing a limit gets reduced by a factor
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How to deal with EFT in collider searches
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How to deal with EFT in collider searches
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How to deal with EFT in collider searches
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Conclusions and future…When using EFT for DM collider searches it is important to check that the bounds obtained are consistent with the EFT low energy process assumptionBounds on EFT operators get weakened after taking this into accountWe have done a complete analysis for s-channel, what about t-channel? [Work in progress]Using simplified models we could instead get stronger bounds, thanks also to limits on the direct search of the mediator
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EFT Cutoff: Analytic Results
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EFT Cutoff: Analytic Results
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EFT vs UV completion To compare EFT to UV completion, we study the ratios
Same experimental cutoffs, as for .
Regularize UV cross section small width for the mediator:
Avoid production of mediator on shell appropriate bounds on integration domain for UV and EFT.
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EFT vs UV completion