The stability of magnetized strange quark matter (MSQM) is studied in the MIT bag model with the density dependent bag pressure. In the consistent thermodynamic description of MSQM, the quark chemical potentials, the total thermodynamic potential, and the anisotropic pressure acquire the corresponding additional term proportional to the density derivative of the bag pressure. The model parameter space is determined for which MSQM is absolutely stable, i.e., its energy per baryon is less than that of the most stable Fe-56 nucleus under zero external pressure and vanishing temperature. It is shown that there exists a magnetic field strength H-u max at which the upper bound B-infinity(u) on the asymptotic bag pressure B-infinity = B(rho(B) >> rho(0)) (rho(0) being the nuclear saturation density) from the absolute stability window vanishes. The value of this field, H-u max similar to (1-3) x 10(18) G, represents the upper bound on the magnetic field strength, which can be reached in a strongly magnetized strange quark star. It is clarified how the absolute stability window and upper bound on the magnetic field strength are affected by varying the parameters in the Gaussian parametrization for the density dependence of the bag pressure.

• 出版日期2015-1-29