Dark Matter Indirect Detection

Review of recent developments in attempts to go beyond the Standard Model is given. We concentrate on three main unresolved problems: mechanism of electroweak symmetry breaking, expected new physics at the TeV scale (mainly SUSY) and the origin of the Dark matter.

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Thermal WIMPs and the scale of new physics: global fits of Dirac dark matter effective field theories

The European Physical Journal C ◽

10.1140/epjc/s10052-021-09712-6 ◽

2021 ◽

Vol 81 (11) ◽

Author(s):

Peter Athron ◽

Neal Avis Kozar ◽

Csaba Balázs ◽

Ankit Beniwal ◽

Sanjay Bloor ◽

...

Keyword(s):

Dark Matter ◽

Global Analysis ◽

New Physics ◽

Effective Field ◽

Indirect Detection ◽

Dirac Fermion ◽

Likelihood Functions ◽

The Status ◽

Direct And Indirect Detection ◽

Global Fitting

AbstractWe assess the status of a wide class of WIMP dark matter (DM) models in light of the latest experimental results using the global fitting framework . We perform a global analysis of effective field theory (EFT) operators describing the interactions between a gauge-singlet Dirac fermion and the Standard Model quarks, the gluons and the photon. In this bottom-up approach, we simultaneously vary the coefficients of 14 such operators up to dimension 7, along with the DM mass, the scale of new physics and several nuisance parameters. Our likelihood functions include the latest data from Planck, direct and indirect detection experiments, and the LHC. For DM masses below 100 GeV, we find that it is impossible to satisfy all constraints simultaneously while maintaining EFT validity at LHC energies. For new physics scales around 1 TeV, our results are influenced by several small excesses in the LHC data and depend on the prescription that we adopt to ensure EFT validity. Furthermore, we find large regions of viable parameter space where the EFT is valid and the relic density can be reproduced, implying that WIMPs can still account for the DM of the universe while being consistent with the latest data.

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Dark Matter indirect detection: recent developments and perspectives

10.22323/1.231.0047 ◽

2015 ◽

Author(s):

Marco Cirelli

Keyword(s):

Dark Matter ◽

Indirect Detection ◽

Recent Developments

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Effective field theory analysis of dark matter-standard model interactions with spin one mediators

Journal of High Energy Physics ◽

10.1007/jhep02(2021)223 ◽

2021 ◽

Vol 2021 (2) ◽

Author(s):

Fabiola Fortuna ◽

Pablo Roig ◽

José Wudka

Keyword(s):

Field Theory ◽

Dark Matter ◽

Standard Model ◽

Effective Field Theory ◽

Gamma Ray ◽

Direct Detection ◽

Effective Field ◽

Indirect Detection ◽

Theory Analysis ◽

Invisible Decay

Abstract We analyze interactions between dark matter and standard model particles with spin one mediators in an effective field theory framework. In this paper, we are considering dark particles masses in the range from a few MeV to the mass of the Z boson. We use bounds from different experiments: Z invisible decay width, relic density, direct detection experiments, and indirect detection limits from the search of gamma-ray emissions and positron fluxes. We obtain solutions corresponding to operators with antisymmetric tensor mediators that fulfill all those requirements within our approach.

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Kinetic mixing, dark photons and extra dimensions. Part III. Brane localized dark matter

Journal of High Energy Physics ◽

10.1007/jhep03(2021)173 ◽

2021 ◽

Vol 2021 (3) ◽

Author(s):

Thomas G. Rizzo ◽

George N. Wojcik

Keyword(s):

Dark Matter ◽

Extra Dimensions ◽

Model Building ◽

New Physics ◽

Model Complexity ◽

Complex Scalar ◽

Dark Photon ◽

Complex Models ◽

The Cost ◽

D Model

Abstract Extra dimensions have proven to be a very useful tool in constructing new physics models. In earlier work, we began investigating toy models for the 5-D analog of the kinetic mixing/vector portal scenario where the interactions of dark matter, taken to be, e.g., a complex scalar, with the brane-localized fields of the Standard Model (SM) are mediated by a massive U(1)D dark photon living in the bulk. These models were shown to have many novel features differentiating them from their 4-D analogs and which, in several cases, avoided some well-known 4-D model building constraints. However, these gains were obtained at the cost of the introduction of a fair amount of model complexity, e.g., dark matter Kaluza-Klein excitations. In the present paper, we consider an alternative setup wherein the dark matter and the dark Higgs, responsible for U(1)D breaking, are both localized to the ‘dark’ brane at the opposite end of the 5-D interval from where the SM fields are located with only the dark photon now being a 5-D field. The phenomenology of such a setup is explored for both flat and warped extra dimensions and compared to the previous more complex models.

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Dark matter freeze-in from semi-production

Journal of High Energy Physics ◽

10.1007/jhep06(2021)026 ◽

2021 ◽

Vol 2021 (6) ◽

Author(s):

Andrzej Hryczuk ◽

Maxim Laletin

Keyword(s):

Dark Matter ◽

Early Universe ◽

Cross Section ◽

Thermal Equilibrium ◽

Indirect Detection ◽

Production Mechanism ◽

Number Density ◽

Matter Production ◽

Relic Density ◽

Standard Formalism

Abstract We study a novel dark matter production mechanism based on the freeze-in through semi-production, i.e. the inverse semi-annihilation processes. A peculiar feature of this scenario is that the production rate is suppressed by a small initial abundance of dark matter and consequently creating the observed abundance requires much larger coupling values than for the usual freeze-in. We provide a concrete example model exhibiting such production mechanism and study it in detail, extending the standard formalism to include the evolution of dark matter temperature alongside its number density and discuss the importance of this improved treatment. Finally, we confront the relic density constraint with the limits and prospects for the dark matter indirect detection searches. We show that, even if it was never in full thermal equilibrium in the early Universe, dark matter could, nevertheless, have strong enough present-day annihilation cross section to lead to observable signals.

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Chiral Recognition for Chromatography and Membrane-Based Separations: Recent Developments and Future Prospects

Molecules ◽

10.3390/molecules26041145 ◽

2021 ◽

Vol 26 (4) ◽

pp. 1145

Author(s):

Yuan Zhao ◽

Xuecheng Zhu ◽

Wei Jiang ◽

Huilin Liu ◽

Baoguo Sun

Keyword(s):

Rapid Development ◽

Chiral Molecules ◽

Future Prospects ◽

Chiral Drugs ◽

Recognition Mechanism ◽

Practical Applications ◽

Food Industries ◽

Global Industry ◽

Endocrine Disrupting ◽

Recent Developments

With the rapid development of global industry and increasingly frequent product circulation, the separation and detection of chiral drugs/pesticides are becoming increasingly important. The chiral nature of substances can result in harm to the human body, and the selective endocrine-disrupting effect of drug enantiomers is caused by differential enantiospecific binding to receptors. This review is devoted to the specific recognition and resolution of chiral molecules by chromatography and membrane-based enantioseparation techniques. Chromatographic enantiomer separations with chiral stationary phase (CSP)-based columns and membrane-based enantiomer filtration are detailed. In addition, the unique properties of these chiral resolution methods have been summarized for practical applications in the chemistry, environment, biology, medicine, and food industries. We further discussed the recognition mechanism in analytical enantioseparations and analyzed recent developments and future prospects of chromatographic and membrane-based enantioseparations.

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Coherent elastic neutrino-nucleus scattering in multi-ton scale dark matter experiments: classification of vector and scalar interactions new physics signals

Journal of High Energy Physics ◽

10.1007/jhep12(2019)124 ◽

2019 ◽

Vol 2019 (12) ◽

Cited By ~ 7

Author(s):

D. Aristizabal Sierra ◽

Bhaskar Dutta ◽

Shu Liao ◽

Louis E. Strigari

Keyword(s):

Dark Matter ◽

New Physics ◽

Nucleus Scattering

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Dark matter candidates in a type-II radiative neutrino mass model

Journal of High Energy Physics ◽

10.1007/jhep06(2021)072 ◽

2021 ◽

Vol 2021 (6) ◽

Author(s):

Roberto A. Lineros ◽

Mathias Pierre

Keyword(s):

Dark Matter ◽

Neutral Particle ◽

Matter Density ◽

Indirect Detection ◽

Dark Matter Candidate ◽

Neutrino Masses ◽

Type Ii ◽

Mass Model ◽

Direct And Indirect Detection

Abstract We explore the connection between Dark Matter and neutrinos in a model inspired by radiative Type-II seessaw and scotogenic scenarios. In our model, we introduce new electroweakly charged states (scalars and a vector-like fermion) and impose a discrete ℤ2 symmetry. Neutrino masses are generated at the loop level and the lightest ℤ2-odd neutral particle is stable and it can play the role of a Dark Matter candidate. We perform a numerical analysis of the model showing that neutrino masses and flavour structure can be reproduced in addition to the correct dark matter density, with viable DM masses from 700 GeV to 30 TeV. We explore direct and indirect detection signatures and show interesting detection prospects by CTA, Darwin and KM3Net and highlight the complementarity between these observables.

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