We determine the resummed 1-loop correction to a baryonic thermal screening mass. The calculation is carried out in the framework of a dimensionally reduced effective theory, where quarks are heavy fields due to their non-zero Matsubara frequencies. The correction due to interactions is computed at O(g2) in the coupling constant. In order to solve a 3-body Schrödinger equation, we exploit a two-dimensional generalization of the hyperspherical harmonics method. At electroweak scale temperatures, the NLO correction represents a ∼ 4.6% increase of the free-theory value 3πT of the screening mass.
Giusti, L., Laine, M., Laudicina, D., Pepe, M., Rescigno, P. (2024). Baryonic thermal screening mass at NLO. JOURNAL OF HIGH ENERGY PHYSICS, 2024(6), 1-20 [10.1007/jhep06(2024)205].
Baryonic thermal screening mass at NLO
Giusti, Leonardo;Laudicina, Davide;Pepe, Michele;Rescigno, Pietro
2024
Abstract
We determine the resummed 1-loop correction to a baryonic thermal screening mass. The calculation is carried out in the framework of a dimensionally reduced effective theory, where quarks are heavy fields due to their non-zero Matsubara frequencies. The correction due to interactions is computed at O(g2) in the coupling constant. In order to solve a 3-body Schrödinger equation, we exploit a two-dimensional generalization of the hyperspherical harmonics method. At electroweak scale temperatures, the NLO correction represents a ∼ 4.6% increase of the free-theory value 3πT of the screening mass.
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