An energy scan of isobaric collisions provides a double-ratio method to measure electric charge transport rapidity dependence, with simulations showing exponential decrease and model-dependent slopes distinct from baryon transport.
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Baryon-electric charge susceptibility increases markedly with baryon chemical potential in an S-matrix hadron gas model.
citing papers explorer
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Measure charge transport in high-energy nuclear collisions with an energy scan of isobaric collisions
An energy scan of isobaric collisions provides a double-ratio method to measure electric charge transport rapidity dependence, with simulations showing exponential decrease and model-dependent slopes distinct from baryon transport.
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$S$-matrix calculation of $BQ$ correlation at finite baryon density
Baryon-electric charge susceptibility increases markedly with baryon chemical potential in an S-matrix hadron gas model.