Effect of the $\delta$-meson on the instabilities of nuclear matter   under strong magnetic fields

A. Rabhi; C. Providencia; and J. Da Providencia

arXiv:0904.3261·nucl-th·September 11, 2009

Effect of the $\delta$-meson on the instabilities of nuclear matter under strong magnetic fields

A. Rabhi, C. Providencia, and J. Da Providencia

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TL;DR

This paper investigates how the $\

Contribution

It introduces the impact of the $\

Findings

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Magnetic fields significantly expand instability regions.

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The $\

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The $\

Abstract

We study the influence of the isovector-scalar meson on the spinodal instabilities and the distillation effect in asymmetric non-homogenous nuclear matter under strong magnetic fields, of the order of $1 0^{18} - 1 0^{19}$ G. Relativistic nuclear models both with constant couplings (NLW) and with density dependent parameters (DDRH) are considered. A strong magnetic field can have large effects on the instability regions giving rise to bands of instability and wider unstable regions. It is shown that for neutron rich matter the inclusion of the $δ$ meson increases the size of the instability region for NLW models and decreases it for the DDRH models. The effect of the $δ$ meson on the transition density to homogeneous $β$ -equilibrium matter is discussed. The DDRH $δ$ model predicts the smallest transition pressures, about half the values obtained for NL $δ$ .

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