Abstract
We present the first-order corrected dynamics of fluid branes carrying higher-form charge by obtaining the general form of their equations of motion to pole-dipole order. Assuming linear response theory, we characterize the corresponding effective theory of stationary bent charged (an)isotropic fluid branes in terms of two sets of response coefficients, the Young modulus and the piezoelectric moduli. We subsequently find large classes of examples in gravity of this effective theory, by constructing stationary strained charged black brane solutions to first order in a derivative expansion. Using solution generating techniques and bent neutral black branes as a seed solution, we obtain a class of charged black brane geometries carrying smeared Maxwell charge in Einstein-Maxwell-dilaton gravity. In the specific case of ten-dimensional space-time we furthermore use T-duality to generate bent black branes with higher-form charge, including smeared D-branes of type II string theory. By subsequently measuring the bending moment and the electric dipole moment which these geometries acquire due to the strain, we uncover that their form is captured by classical electroelasticity theory. In particular, we find that the Young modulus and the piezoelectric moduli of our strained charged black brane solutions are parameterized by a total of 4 response coefficients, both for the isotropic as well as anisotropic cases.
Highlights
Long-wavelength perturbations of black branes have been useful for the construction of new black hole solutions in higher dimensions, as well as for understanding finite temperature properties of strongly coupled quantum field theories by means of holographic dualities
We present the first-order corrected dynamics of fluid branes carrying higherform charge by obtaining the general form of their equations of motion to pole-dipole order in the absence of external forces
We find that the Young modulus and the piezoelectric moduli of our strained charged black brane solutions are parameterized by a total of 4 response coefficients, both for the isotropic as well as anisotropic cases
Summary
Long-wavelength perturbations of black branes have been useful for the construction of new black hole solutions in higher dimensions, as well as for understanding finite temperature properties of strongly coupled quantum field theories by means of holographic dualities. In the specific case of ten-dimensional space-time we use T-duality to generate bent black branes charged under higher-form fields This includes type II Dq-branes smeared in (p − q)-directions, which are described by the theory of anisotropic p-branes carrying. For the class of bent charged black brane solutions obtained in this paper, these are parameterized by a total of 4 response coefficients, both for the isotropic as well as anisotropic cases These measurements constitute the first step in obtaining higher order corrections to the charged stationary black holes found in [22, 23]. In appendix C we give an outline of the solution generating techniques as well as the explicit form of the geometries constructed in this paper
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