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Magnetic Field and Temperature Effects on Strangelets

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The main properties of magnetized strangelets, namely, their energy per baryon, radius and electric charge, are studied in the unpaired strange quark matter phase. Temperature effects are taken into account in order to study their stability compared to the (56)Fe isotope and non-magnetized strangelets within the framework of the MIT bag model. It is concluded that the presence of a magnetic field tends to stabilize more the strangelets, even when temperature is considered. We find that the electric charge is modified in the presence of the magnetic field, leading to higher charge values for magnetized strangelets, when compared to the non-magnetized case.

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Strangelets Strange Quark Matter Magnetic Field Finite-Temperature Matter Stars

Citation

Fune Ernesto Lopez, Martinez Aurora Perez, Paret Daryel Manreza, Felipe Ricardo Gonzalez. Magnetic Field and Temperature Effects on Strangelets. International Journal of Modern Physics E-Nuclear Physics. 2011: 20 (2), 42-49.

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World Scientific Publ

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