Litcius/Paper detail

A fresh look at the gravitational-wave signal from cosmological phase transitions

Tommi Alanne, Thomas Hugle, Moritz Platscher, Kai Schmitz

2020Journal of High Energy Physics75 citationsDOIOpen Access PDF

Abstract

A bstract Many models of physics beyond the Standard Model predict a strong first-order phase transition (SFOPT) in the early Universe that leads to observable gravitational waves (GWs). In this paper, we propose a novel method for presenting and comparing the GW signals that are predicted by different models. Our approach is based on the observation that the GW signal has an approximately model-independent spectral shape. This allows us to represent it solely in terms of a finite number of observables, that is, a set of peak amplitudes and peak frequencies. As an example, we consider the GW signal in the real-scalar-singlet extension of the Standard Model (xSM). We construct the signal region of the xSM in the space of observables and show how it will be probed by future space-borne interferometers. Our analysis results in sensitivity plots that are reminiscent of similar plots that are typically shown for dark-matter direct-detection experiments, but which are novel in the context of GWs from a SFOPT. These plots set the stage for a systematic model comparison, the exploration of underlying model-parameter dependencies, and the construction of distribution functions in the space of observables. In our plots, the experimental sensitivities of future searches for a stochastic GW signal are indicated by peak-integrated sensitivity curves . A detailed discussion of these curves, including fit functions, is contained in a companion paper [1].

Topics & Concepts

PhysicsObservableSensitivity (control systems)Context (archaeology)Statistical physicsSIGNAL (programming language)Gravitational waveAmplitudeParameter spaceSpace (punctuation)Physics beyond the Standard ModelSet (abstract data type)Phase spaceUniverseTheoretical physicsPhase transitionGravitationPhase (matter)Standard Model (mathematical formulation)Extension (predicate logic)Observable universeSeries (stratigraphy)CosmologyDistribution (mathematics)AstrophysicsSpectral densityCosmological perturbation theoryFunction (biology)Space timeFinite setCosmology and Gravitation TheoriesPulsars and Gravitational Waves ResearchDark Matter and Cosmic Phenomena