In the NJL model with experimental-constrained π-ρ mixing, direct determinant and near-pole mass extraction schemes reproduce the robust non-monotonic lowest charged pion mode in magnetic field while rest-mass and local schemes do not.
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Pion-rho mixing in magnetic fields induces a turnover in the lowest Landau level charged pion energy through level repulsion amplified by rho wave-function renormalization suppression, qualitatively reproducing lattice QCD results.
A general framework isolates the linear term in the holographic quark-antiquark potential for symmetric strings in stationary backgrounds, with explicit hypergeometric and elliptic integral expressions for black brane and Rindler-AdS cases.
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A Comparative Study of Mass Extraction Schemes and $\pi^\pm-\rho^\pm$ Mixing
In the NJL model with experimental-constrained π-ρ mixing, direct determinant and near-pole mass extraction schemes reproduce the robust non-monotonic lowest charged pion mode in magnetic field while rest-mass and local schemes do not.
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pion-rho Mixing as a mechanism for non-monotonic charged pion behavior in magnetic fields
Pion-rho mixing in magnetic fields induces a turnover in the lowest Landau level charged pion energy through level repulsion amplified by rho wave-function renormalization suppression, qualitatively reproducing lattice QCD results.
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The Static Heavy Quark-Antiquark Potential within String Theory in Arbitrary Stationary Backgrounds
A general framework isolates the linear term in the holographic quark-antiquark potential for symmetric strings in stationary backgrounds, with explicit hypergeometric and elliptic integral expressions for black brane and Rindler-AdS cases.