Electromagnetic signals from bare strange stars

Abstract: The crystalline color superconducting phase is believed to be the ground state of deconfined quark matter for sufficiently large values of the strange quark mass. This phase has the remarkable property of being more rigid than any known material. It can therefore sustain large shear stresses, supporting torsional oscillations of large amplitude. The torsional oscillations could lead to observable electromagnetic signals if strange stars have a crystalline color superconducting crust. Indeed, considering a simp… Show more

“…(7). The detailed analysis of [13] and sketched below shows that this is indeed the case. Our interest in the torsional oscillations is clearly due to the fact that in the CCSC phase the shear modulus is extremely large and can therefore sustain oscillations of large amplitude and high frequency.…”

“…Indeed, there is a big electric dipole moment close to the star surface which turns out to be a powerful source of electromagnetic (EM) radiation [13]. In particular, we studied the EM emission associated with the torsional oscillations of the crust.…”

“…In order to take into account the impact of the uncertainty of these coefficients on our results, we consider two extreme situations, namely A (a 4 = 0.7, a 2 = (200 MeV) 2 and B eff = (165 MeV) 4 ) and B (a 4 = 0.7, a 2 = 0 and B eff = (145 MeV) 4 ). Solving the TOV equations using the above EoS one obtains a sequence of stable configurations, see [13] for more details. Our reference models are -Model A, with mass of M = 1.27M , R 7.1 km and -Model B, with M 2.0M , R 10.9 km.…”

“…Solving the Poisson's equation with the appropriate boundary conditions (see [13] for more details), one can determine the potential φ(z) and feeding it in Eq. (6) one determines the space dependent effective chemical potential and therefore the number densities.…”

“…In the following we report on the results obtained in [13] studying the torsional oscillations of strange stars having no nuclear matter crust (so-called bare strange stars [1]), with a color-flavor locked (CFL) [14] core and a crystalline color superconducting (CCSC) crust, see [12] for a review.…”

Torsional oscillations of strange stars

“…(7). The detailed analysis of [13] and sketched below shows that this is indeed the case. Our interest in the torsional oscillations is clearly due to the fact that in the CCSC phase the shear modulus is extremely large and can therefore sustain oscillations of large amplitude and high frequency.…”

“…Indeed, there is a big electric dipole moment close to the star surface which turns out to be a powerful source of electromagnetic (EM) radiation [13]. In particular, we studied the EM emission associated with the torsional oscillations of the crust.…”

“…In order to take into account the impact of the uncertainty of these coefficients on our results, we consider two extreme situations, namely A (a 4 = 0.7, a 2 = (200 MeV) 2 and B eff = (165 MeV) 4 ) and B (a 4 = 0.7, a 2 = 0 and B eff = (145 MeV) 4 ). Solving the TOV equations using the above EoS one obtains a sequence of stable configurations, see [13] for more details. Our reference models are -Model A, with mass of M = 1.27M , R 7.1 km and -Model B, with M 2.0M , R 10.9 km.…”

“…Solving the Poisson's equation with the appropriate boundary conditions (see [13] for more details), one can determine the potential φ(z) and feeding it in Eq. (6) one determines the space dependent effective chemical potential and therefore the number densities.…”

“…In the following we report on the results obtained in [13] studying the torsional oscillations of strange stars having no nuclear matter crust (so-called bare strange stars [1]), with a color-flavor locked (CFL) [14] core and a crystalline color superconducting (CCSC) crust, see [12] for a review.…”

Torsional oscillations of strange stars

Core Collapse

Love–C relations for elastic hybrid stars