Add to ORKGA connection between solutions of the relativistic d-brane system in (d+1) dimensions with the solutions of a Galileo invariant fluid in d-dimensions is by now well established. However, the physical nature of the light-cone gauge description of a relativistic membrane changes after the reduction to the fluid dynamical model since the gauge symmetry is lost. In this work we argue that the original gauge symmetry present in a relativistic d-brane system can be recovered after the reduction process to a d-dimensional fluid model. To this end we propose, without introducing Wess-Zumino fields, a gauge invariant theory of isentropic fluid dynamics and show that this symmetry corresponds to the invariance under local translation of the velocity ...
Abstract We compute constitutive relations for a charged (2+1) dimensional Schrödinger fluid up to f...
We note that the equations of relativistic hydrodynamics reduce to the incompressible Navier-Stokes ...
Effective field theories for membranes have found several applications in physics. They are used in ...
Various fluid mechanical systems enjoy a hidden, higher-dimensional dynamical Poincare symmetry, whi...
We greatly simplify the light-cone gauge description of a relativistic membrane moving in Minkowski ...
AbstractWe show that partially cylindrically symmetric solutions of the motion equations of special ...
International audienceWe describe the dynamics of two-dimensional relativistic and Carrollian fluids...
International audienceWe comprehensively study Galilean and Carrollian hydrodynamics on arbitrary ba...
We follow recent work and study the relativistic {\it d}-brane system in $(d+1,1)$ dimensions and it...
The Hamiltonian dynamics of a compressible inviscid fluid is formulated as a gauge theory. The idea ...
We construct an equilibrium partition function for a nonrelativistic fluid and use it to constrain t...
We show that the full spurionic symmetry of Galilean-invariant field theories can be deduced when th...
The flow of the relativistic imperfect fluid in two dimensions is discussed. We calculate the symmet...
In this study, we demonstrate that an inviscid fluid in a near-equilibrium state, when viewed in the...
We comprehensively study Galilean and Carrollian hydrodynamics on arbitrary backgrounds, in the pres...
Abstract We compute constitutive relations for a charged (2+1) dimensional Schrödinger fluid up to f...
We note that the equations of relativistic hydrodynamics reduce to the incompressible Navier-Stokes ...
Effective field theories for membranes have found several applications in physics. They are used in ...
Various fluid mechanical systems enjoy a hidden, higher-dimensional dynamical Poincare symmetry, whi...
We greatly simplify the light-cone gauge description of a relativistic membrane moving in Minkowski ...
AbstractWe show that partially cylindrically symmetric solutions of the motion equations of special ...
International audienceWe describe the dynamics of two-dimensional relativistic and Carrollian fluids...
International audienceWe comprehensively study Galilean and Carrollian hydrodynamics on arbitrary ba...
We follow recent work and study the relativistic {\it d}-brane system in $(d+1,1)$ dimensions and it...
The Hamiltonian dynamics of a compressible inviscid fluid is formulated as a gauge theory. The idea ...
We construct an equilibrium partition function for a nonrelativistic fluid and use it to constrain t...
We show that the full spurionic symmetry of Galilean-invariant field theories can be deduced when th...
The flow of the relativistic imperfect fluid in two dimensions is discussed. We calculate the symmet...
In this study, we demonstrate that an inviscid fluid in a near-equilibrium state, when viewed in the...
We comprehensively study Galilean and Carrollian hydrodynamics on arbitrary backgrounds, in the pres...
Abstract We compute constitutive relations for a charged (2+1) dimensional Schrödinger fluid up to f...
We note that the equations of relativistic hydrodynamics reduce to the incompressible Navier-Stokes ...
Effective field theories for membranes have found several applications in physics. They are used in ...