Add to ORKGAlthough holographic duality has been regarded as a complementary tool in helping understand the non-equilibrium dynamics of strongly coupled many-body systems, it still remains an open question how to confront its predictions quantitatively with the real experimental scenarios. By taking a right evolution scheme for the holographic superfluid model and matching the holographic data with the phenomenological dissipative Gross-Pitaeviskii models, we find that the holographic dissipation mechanism can be well captured by the Landau form, which is expected to greatly facilitate the quantitative test of the holographic predictions against the upcoming experimental data. Our result also provides a prime example how holographic duality can help s...
In this article we apply the holographic principle for describing in a unifying way the early and th...
We investigate the formation of topological defects in the course of a dynamical phase transition wi...
We study the nonlinear dynamical evolution of spinodal decomposition in a first-order superfluid pha...
We study the quasi-hydrodynamics of a system with a softly broken $U(1)$ global symmetry using effec...
We derive the leading dissipative corrections of holographic superfluids at finite temperature and c...
We study a simple extension of the original Hartnoll, Herzog and Horowitz (HHH) holographic superflu...
Abstract: We study the far-from-equilibrium dynamics of a (2 + 1)-dimensional super-fluid at finite ...
We review the recent developments in applying holographic methods to understand nonequilibrium physi...
This note discusses the Wigner function representation from the standpoint of establishing a hologra...
Fluid dynamics and gravitational physics are deeply interconnected by means of holography, a recent ...
By using the conserved currents associated to the diffeomorphism invariance, we study dynamical holo...
For strongly interacting systems, where perturbation theory is not applicable, holographic duality i...
We investigate the accelerated expansion of the late-time universe in the Friedmann-Robertson-Walker...
We develop analytic techniques to construct the leading dissipative terms in a derivative expansion ...
In this paper we consider a new geometric approach to Madelung's quantum hydrodynamics (QHD) based o...
In this article we apply the holographic principle for describing in a unifying way the early and th...
We investigate the formation of topological defects in the course of a dynamical phase transition wi...
We study the nonlinear dynamical evolution of spinodal decomposition in a first-order superfluid pha...
We study the quasi-hydrodynamics of a system with a softly broken $U(1)$ global symmetry using effec...
We derive the leading dissipative corrections of holographic superfluids at finite temperature and c...
We study a simple extension of the original Hartnoll, Herzog and Horowitz (HHH) holographic superflu...
Abstract: We study the far-from-equilibrium dynamics of a (2 + 1)-dimensional super-fluid at finite ...
We review the recent developments in applying holographic methods to understand nonequilibrium physi...
This note discusses the Wigner function representation from the standpoint of establishing a hologra...
Fluid dynamics and gravitational physics are deeply interconnected by means of holography, a recent ...
By using the conserved currents associated to the diffeomorphism invariance, we study dynamical holo...
For strongly interacting systems, where perturbation theory is not applicable, holographic duality i...
We investigate the accelerated expansion of the late-time universe in the Friedmann-Robertson-Walker...
We develop analytic techniques to construct the leading dissipative terms in a derivative expansion ...
In this paper we consider a new geometric approach to Madelung's quantum hydrodynamics (QHD) based o...
In this article we apply the holographic principle for describing in a unifying way the early and th...
We investigate the formation of topological defects in the course of a dynamical phase transition wi...
We study the nonlinear dynamical evolution of spinodal decomposition in a first-order superfluid pha...