Mikael Chala scite author profile

We investigate the potential for observing gravitational waves from cosmological phase transitions with LISA in light of recent theoretical and experimental developments. Our analysis is based on current state-of-the-art simulations of sound waves in the cosmic fluid after the phase transition completes. We discuss the various sources of gravitational radiation, the underlying parameters describing the phase transition and a variety of viable particle physics models in this context, clarifying common misconceptions that appear in the literature and identifying open questions requiring future study. We also present a web-based tool, PTPlot, that allows users to obtain up-to-date detection prospects for a given set of phase transition parameters at LISA.

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FCC-ee: The Lepton Collider

Abada¹,

Abbrescia²,

AbdusSalam³

et al. 2019

Eur. Phys. J. Spec. Top.

633

511

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FCC Physics Opportunities

Abada¹,

Abbrescia²,

AbdusSalam³

et al. 2019

Eur. Phys. J. C

568

483

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FCC-hh: The Hadron Collider

Abada¹,

Abbrescia²,

AbdusSalam³

et al. 2019

Eur. Phys. J. Spec. Top.

550

414

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Boosted objects and jet substructure at the LHC. Report of BOOST2012, held at IFIC Valencia, 23rd–27th of July 2012

et al. 2014

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This report of the BOOST2012 workshop presents the results of four working groups that studied key aspects of jet substructure. We discuss the potential of firstprinciple QCD calculations to yield a precise description of the substructure of jets and study the accuracy of state-ofthe-art Monte Carlo tools. Limitations of the experiments' ability to resolve substructure are evaluated, with a focus on the impact of additional (pile-up) proton proton collisions on jet substructure performance in future LHC operating scenarios. A final section summarizes the lessons learnt from jet substructure analyses in searches for new physics in the production of boosted top quarks.

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Constraining dark sectors with monojets and dijets

Chala

Kahlhoefer

McCullough

et al. 2015

J. High Energ. Phys.

122

165

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We consider dark sector particles (DSPs) that obtain sizeable interactions with Standard Model fermions from a new mediator. While these particles can avoid observation in direct detection experiments, they are strongly constrained by LHC measurements. We demonstrate that there is an important complementarity between searches for DSP production and searches for the mediator itself, in particular bounds on (broad) dijet resonances. This observation is crucial not only in the case where the DSP is all of the dark matter but whenever -precisely due to its sizeable interactions with the visible sector -the DSP annihilates away so efficiently that it only forms a dark matter subcomponent. To highlight the different roles of DSP direct detection and LHC monojet and dijet searches, as well as perturbativity constraints, we first analyse the exemplary case of an axial-vector mediator and then generalise our results. We find important implications for the interpretation of LHC dark matter searches in terms of simplified models.

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HE-LHC: The High-Energy Large Hadron Collider

Abada

Abbrescia

AbdusSalam

et al. 2019

Eur. Phys. J. Spec. Top.

163

137

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Unified explanation for dark matter and electroweak baryogenesis with direct detection and gravitational wave signatures

Chala¹,

2016

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A minimal extension of the Standard Model that provides both a dark matter candidate and a strong firstorder electroweak phase transition (EWPT) consists of two additional Lorentz and gauge singlets. In this paper we work out a composite Higgs version of this scenario, based on the coset SOð7Þ=SOð6Þ. We show that by embedding the elementary fermions in appropriate representations of SOð7Þ, all dominant interactions are described by only three free effective parameters. Within the model dependencies of the embedding, the theory predicts one of the singlets to be stable and responsible for the observed dark matter abundance. At the same time, the second singlet introduces new CP-violation phases and triggers a strong first-order EWPT, making electroweak baryogenesis feasible. It turns out that this scenario does not conflict with current observations and it is promising for solving the dark matter and baryon asymmetry puzzles. The tight predictions of the model will be accessible at the forthcoming dark matter direct detection and gravitational wave experiments.

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Mikael Chala

Detecting gravitational waves from cosmological phase transitions with LISA: an update

FCC-ee: The Lepton Collider

FCC Physics Opportunities

FCC-hh: The Hadron Collider

Boosted objects and jet substructure at the LHC. Report of BOOST2012, held at IFIC Valencia, 23rd–27th of July 2012

Constraining dark sectors with monojets and dijets

HE-LHC: The High-Energy Large Hadron Collider

Unified explanation for dark matter and electroweak baryogenesis with direct detection and gravitational wave signatures

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