Beyond the dark matter effective field theory and a simplified model approach at colliders

Seungwon Baek; P. Ko; Myeonghun Park; Wan Il Park; Chaehyun Yu

doi:10.1016/j.physletb.2016.03.026

Beyond the dark matter effective field theory and a simplified model approach at colliders

Seungwon Baek, P. Ko, Myeonghun Park, Wan Il Park, Chaehyun Yu

School of Natural Sciences

Research output: Contribution to journal › Article › peer-review

43 Scopus citations

Abstract

Direct detection of and LHC search for the singlet fermion dark matter (SFDM) model with Higgs portal interaction are considered in a renormalizable model where the full Standard Model (SM) gauge symmetry is imposed by introducing a singlet scalar messenger. In this model, direct detection is described by an effective operator m_qq^-qχ^-χ as usual, but the full amplitude for monojet + E_T involves two intermediate scalar propagators, which cannot be seen within the effective field theory (EFT) or in the simplified model without the full SM gauge symmetry. We derive the collider bounds from the ATLAS monojet + E_T as well as the CMS tt^-+E_T data, finding out that the bounds and the interpretation of the results are completely different from those obtained within the EFT or simplified models. It is pointed out that it is important to respect unitarity, renormalizability and local gauge invariance of the SM.

Original language	English
Pages (from-to)	289-294
Number of pages	6
Journal	Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics
Volume	756
DOIs	https://doi.org/10.1016/j.physletb.2016.03.026
State	Published - 10 May 2016

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title = "Beyond the dark matter effective field theory and a simplified model approach at colliders",

abstract = "Direct detection of and LHC search for the singlet fermion dark matter (SFDM) model with Higgs portal interaction are considered in a renormalizable model where the full Standard Model (SM) gauge symmetry is imposed by introducing a singlet scalar messenger. In this model, direct detection is described by an effective operator mqq-qχ-χ as usual, but the full amplitude for monojet + ET involves two intermediate scalar propagators, which cannot be seen within the effective field theory (EFT) or in the simplified model without the full SM gauge symmetry. We derive the collider bounds from the ATLAS monojet + ET as well as the CMS tt-+ET data, finding out that the bounds and the interpretation of the results are completely different from those obtained within the EFT or simplified models. It is pointed out that it is important to respect unitarity, renormalizability and local gauge invariance of the SM.",

author = "Seungwon Baek and P. Ko and Myeonghun Park and Park, \{Wan Il\} and Chaehyun Yu",

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T1 - Beyond the dark matter effective field theory and a simplified model approach at colliders

AU - Baek, Seungwon

AU - Ko, P.

AU - Park, Myeonghun

AU - Park, Wan Il

AU - Yu, Chaehyun

PY - 2016/5/10

Y1 - 2016/5/10

N2 - Direct detection of and LHC search for the singlet fermion dark matter (SFDM) model with Higgs portal interaction are considered in a renormalizable model where the full Standard Model (SM) gauge symmetry is imposed by introducing a singlet scalar messenger. In this model, direct detection is described by an effective operator mqq-qχ-χ as usual, but the full amplitude for monojet + ET involves two intermediate scalar propagators, which cannot be seen within the effective field theory (EFT) or in the simplified model without the full SM gauge symmetry. We derive the collider bounds from the ATLAS monojet + ET as well as the CMS tt-+ET data, finding out that the bounds and the interpretation of the results are completely different from those obtained within the EFT or simplified models. It is pointed out that it is important to respect unitarity, renormalizability and local gauge invariance of the SM.

AB - Direct detection of and LHC search for the singlet fermion dark matter (SFDM) model with Higgs portal interaction are considered in a renormalizable model where the full Standard Model (SM) gauge symmetry is imposed by introducing a singlet scalar messenger. In this model, direct detection is described by an effective operator mqq-qχ-χ as usual, but the full amplitude for monojet + ET involves two intermediate scalar propagators, which cannot be seen within the effective field theory (EFT) or in the simplified model without the full SM gauge symmetry. We derive the collider bounds from the ATLAS monojet + ET as well as the CMS tt-+ET data, finding out that the bounds and the interpretation of the results are completely different from those obtained within the EFT or simplified models. It is pointed out that it is important to respect unitarity, renormalizability and local gauge invariance of the SM.

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JO - Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics

JF - Physics Letters, Section B: Nuclear, Elementary Particle and High-Energy Physics

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Beyond the dark matter effective field theory and a simplified model approach at colliders

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