Bosonic D-branes at finite temperature with an external field

Abstract

Bosonic boundary states at finite temperature are constructed as solutions of boundary conditions at T≠ 0 for bosonic open strings with a constant gauge field Fab coupled to the boundary. The construction is done in the framework of thermo field dynamics where a thermal Bogoliubov transformation maps states and operators to finite temperature. Boundary states are given in terms of states from the direct product space between the Fock space of the closed string and another identical copy of it. By analogy with zero temperature, the boundary states heve the interpretation of Dp-brane at finite temperature. The boundary conditions admit two different solutions. The entropy of the closed string in a Dp-brane state is computed and analysed. It is interpreted as the entropy of the Dp-brane at finite temperature.

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