Nonlinear electrodynamics and the surface redshift of pulsars

Abstract

Currently is argued that the best method of determining the neutron star (NS) fundamental properties is by measuring the gravitational redshift (z) of spectral lines produced in the star photosphere. Measurement of z at the star surface provides a unique insight on the NS mass-to-radius relation and thus on its equation of state (EoS), which reflects the physics of the strong interaction between particles making up the star. Evidence for such a measurement has been provided quite recently by Cottam, Paerels & Mendez (2002), and also by Sanwal et al. (2002). Here we argue that although the quoted observations are undisputed for canonical pulsars, they could be misidentified if the NS is endowed with a super strong B as in the so-called magnetars (Duncan & Thompson 1992) and strange quark magnetars (Zhang 2002), as in the spectral line discovered by Ibrahim et al. (2002;2003). The source of this new "confusion" redshift is related to nonlinear electrodynamics (NLEDs) effects.

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