Litcius/Paper detail

The likelihood for LSS: stochasticity of bias coefficients at all orders

Giovanni Cabass, Fabian Schmidt

2020Journal of Cosmology and Astroparticle Physics25 citationsDOIOpen Access PDF

Abstract

In the EFT of biased tracers the noise field $\varepsilon_g$ is not exactly uncorrelated with the nonlinear matter field $\delta$. Its correlation with $\delta$ is effectively captured by adding stochasticities to each bias coefficient. We show that if these stochastic fields are Gaussian (the impact of their non-Gaussianity being subleading on quasi-linear scales anyway) it is possible to resum exactly their effect on the conditional likelihood ${\cal P}[\delta_g|\delta]$ to observe a galaxy field $\delta_g$ given an underlying $\delta$. This resummation allows to take them into account in EFT-based approaches to Bayesian forward modeling. We stress that the resulting corrections to a purely Gaussian conditional likelihood with white-noise covariance are the most relevant on scales where the EFT is under control: they are more important than any non-Gaussianity of the noise $\varepsilon_g$.

Topics & Concepts

PhysicsStatistical physicsNon-GaussianityResummationCovarianceGaussianNoise (video)Field (mathematics)Gaussian random fieldBayesian probabilityNonlinear systemUncorrelatedLikelihood functionRandom fieldGalaxyMaximum likelihoodCorrelation function (quantum field theory)Cosmological perturbation theoryGaussian noiseConditional varianceBayesian inferenceCovariance matrixGalaxies: Formation, Evolution, PhenomenaAstronomy and Astrophysical ResearchCosmology and Gravitation Theories