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Cosmological phase transitions without high-temperature expansions

Pablo Navarrete, Risto Paatelainen, Kaapo Seppänen, Tuomas V. I. Tenkanen

2026Journal of High Energy Physics6 citationsDOIOpen Access PDF

Abstract

A bstract We introduce a new framework for perturbatively computing equilibrium thermodynamic properties of cosmological phase transitions to high loop orders, using the full four-dimensional resummed thermal effective potential and avoiding the limitations of standard high-temperature approximations. By systematically disentangling the physics of hard and soft momentum scales, our approach unifies their treatment within a single expression, enabling consistent handling of both vacuum and thermal divergences across all mass regimes. This core innovation enables the efficient numerical evaluation of massive multiloop thermal sum-integrals, achieved through a finite-temperature generalization of Loop-Tree Duality — an advanced algorithmic technique originally developed to render vacuum Feynman integrals numerically tractable via Monte Carlo methods. As a proof of principle, we apply the framework to a scalar-Yukawa model, presenting a complete two-loop calculation and a novel three-loop extension — the first fully massive three-loop sum-integral computation without relying on high-temperature expansions. Our approach opens the door to precise perturbative predictions of the phase structure in a broad class of beyond-the-Standard-Model scenarios, including those featuring strong first-order phase transitions relevant for gravitational-wave signals, where conventional high-temperature approximations break down.

Topics & Concepts

PhysicsFeynman diagramDuality (order theory)Phase transitionComputationStatistical physicsTheoretical physicsGeneralizationThermalClass (philosophy)Thermal quantum field theoryMonte Carlo methodCore (optical fiber)Thermal equilibriumExtension (predicate logic)ResummationLoop (graph theory)Thermal fluctuationsPhase (matter)Momentum (technical analysis)Particle physicsCritical phenomenaStandard Model (mathematical formulation)Perturbation theory (quantum mechanics)Quantum electrodynamicsFalse vacuumCosmology and Gravitation TheoriesGalaxies: Formation, Evolution, PhenomenaParticle physics theoretical and experimental studies
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