Validity of the EFT interpretation of Monojet results at the LHC

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Dark Matter at the LHC Chicago, 19.09.2013 Validity of the EFT interpretation of Monojet results at the LHC Johanna Gramling University of Geneva johanna.gramling@cern.ch

Outline Motivation to use EFT Conditions of Validity for an EFT Idea of this study MadGraph details Introduction of R Λ Procedure Comparison with analytical result Moving to a scenario better comparable to experimental limits Comparison to experimental limits Loopholes? Couplings! Many thanks to Andrea de Simone for discussions and suggestions! Johanna Gramling, "DM@LHC", Chicago, 19.09.2013 2

Why EFT? Monojet (and other collider) analyses are interpreted in terms of an effective field theory (EFT) Idea: heavy particle mediating the interaction between SM particles and DM particles Much too heavy to be produced on-shell can be integrated out, interaction treated as contact interaction! Advantage: model depends only on a few parameters m DM, cut-off scale Λ or M * much easier than e.g. a full SUSY model Allows easy comparison to direct or indirect DM detection experiments Johanna Gramling, "DM@LHC", Chicago, 19.09.2013 3

Conditions of EFT 1. g q, g χ < 4π to stay in the perturbative regime 2. m M > m DM assuming that M can't be produced, but DM can Minimal constraint: Λ = m M / (g q g χ ) > m M /4π < m DM /4π 3. m M > Q TR assuming that M can't be produced Minimal constraint: Λ > m M /4π > Q TR /4π 4. Q TR > 2m DM : assuming that DM is pair-produced on-shell Combining 3 & 4 gives stronger constraint than 2! Minimal constraint: Λ > Q TR /4π > 2m DM /4π Johanna Gramling, "DM@LHC", Chicago, 19.09.2013 4

How to judge EFT Validity? Choice of coupling used in the following: (g q g χ ) = 1 Leading to Λ > Q TR > 2m DM At LHC, Q TR can be of the order of 1 TeV. The limits that can be set on Λ are of the same order or even smaller... Validity of EFT approach questionable Idea: access fraction of valid EFT events by just comparing Q TR and Λ and check, if condition is fulfilled First suggested in arxiv:1307.2253v1 by A. de Simone et al. Here: not analytical, but using MadGraph simulation Johanna Gramling, "DM@LHC", Chicago, 19.09.2013 5

MadGraph Details Use model implementation by T.Tait, et al. (arxiv:1008.1783v2) Only two new particles: DM particle, Mediator M is Dirac Fermion Mediator has no propagator contact interaction Only two parameters: m DM and Λ/M * 14 Operators possible, pick characteristic set 1 M * 2 χ χ q q Johanna Gramling, "DM@LHC", Chicago, 19.09.2013 6

Procedure Simulate events in MadGraph for different DM masses and Mediator masses (20k events for each point) m DM : 10, 50, 80, 100, 400, 600, 800, 1000 GeV m M : 250, 500, 1000, 1500, 2000, 2500, 3000 GeV R Λ R Λ =(1 e a 0( Λ 2m DM a 1 ) a 2 ) (1 e a 3( Λ +2m DM a 1 ) a 4 ) 75% Count events fulfilling or failing the condition Q TR < m M 50% 25% Construct ratio R Λ = valid events / all events Plot R Λ vs. mediator mass for each DM mass Fit to extract value of mediator mass for which R Λ is e.g. 50% Construct curve Λ vs m DM, showing the line where R Λ is e.g. 50% Johanna Gramling, "DM@LHC", Chicago, 19.09.2013 7

Comparison with analytical results Scenario: 1 gluon jet with p T above 120 GeV with η < 2 Good qualitative agreement, small difference Keep in mind: completely different approaches Differences: upper jet p T cut of 1 TeV in analytical calculation Slightly different use of fitting function Johanna Gramling, "DM@LHC", Chicago, 19.09.2013 8

Way to a more realistic scenario Analysis Limits on operators D5, D8, D11 No restriction to gluon jets leading jet p T above 350 GeV 1 or 2 jets Second jet within η < 4.5 Effect on R Λ Small difference in shape when going from D1 to D5 R Λ higher for all jet flavors R Λ lower for higher jet p T No effect of number of jets No effect of η range Johanna Gramling, "DM@LHC", Chicago, 19.09.2013 9

Comparison with latest ATLAS results Limits are in Region of R Λ = 30% or even below! Especially bad: D11 (gluon operator) ATLAS results from ATLAS-CONF-2012-147 At m DM ~ 100 GeV limit goes down, whereas the R Λ curves go up Johanna Gramling, "DM@LHC", Chicago, 19.09.2013 10

Limiting case: (g q g χ ) = 4π Limits are well above R Λ = 75%! Again: most critical for D11 (gluon operator) R Λ =75% is crossed at m DM = 600 GeV Johanna Gramling, "DM@LHC", Chicago, 19.09.2013 11

Summary EFT is very useful to interpret LHC results, e.g. from a Monojet analysis, in terms of DM production Only dependent on very few parameters Problem: how valid is the EFT approach at LHC energies? Idea to judge validity of EFT: construct R Λ MadGraph used to simulate events For each event check, if EFT condition is fulfilled Show lines of percentage of valid events in usual limit plots Comparison with ATLAS result shows If couplings are taken to be one, limits are in region of 30% valid events If couplings are assumed to be larger, limits are well above critical region Maybe interesting addition: check after showering Johanna Gramling, "DM@LHC", Chicago, 19.09.2013 12

BACKUP Johanna Gramling, "DM@LHC", Chicago, 19.09.2013 13

Figure 5 of arxiv:1307.2253v1 Analystical Result Johanna Gramling, "DM@LHC", Chicago, 19.09.2013 14

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