The local temperature and chemical potential in the rest frame of each fluid element are then obtained as spatially varying fields using the Planck transforma- tions

The temperature, chemical potential can be specified directly in the laboratory frame (in which the fireball is at rest)

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Finite Volume Effects on Transverse Momentum Spectra at LHC and RHIC Using a Blast-Wave Model with Planck Transformed Temperatures

hep-ph · 2026-04-08 · unverdicted · novelty 5.0

A finite-volume blast-wave model with Planck-transformed lab-frame temperatures and chemical potentials produces physically reasonable freeze-out parameters and volumes when fitted to pion pT data, while the conventional infinite-volume model yields infinite volumes and light-speed longitudinal flow

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Finite Volume Effects on Transverse Momentum Spectra at LHC and RHIC Using a Blast-Wave Model with Planck Transformed Temperatures hep-ph · 2026-04-08 · unverdicted · none · ref 2
A finite-volume blast-wave model with Planck-transformed lab-frame temperatures and chemical potentials produces physically reasonable freeze-out parameters and volumes when fitted to pion pT data, while the conventional infinite-volume model yields infinite volumes and light-speed longitudinal flow

The local temperature and chemical potential in the rest frame of each fluid element are then obtained as spatially varying fields using the Planck transforma- tions

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