A simple holographic scenario for gapped quenches

Abstract: We construct gravitational backgrounds dual to a family of field theories parameterized by a relevant coupling. They combine a non-trivial scalar field profile with a naked singularity. The naked singularity is necessary to preserve Lorentz invariance along the boundary directions. The singularity is however excised by introducing an infrared cutoff in the geometry. The holographic dictionary associated to the infrared boundary is developed. We implement quenches between two different values of the coupling. T… Show more

“…Long times and (non)thermalization. As we mentioned previously, holographic quenches in a confining phase have be studied previously in [29,[56][57][58][59]. In studying a 'hard wall' model [57], it was noticed that the response of the one-point functions remained oscillatory over a long period of time after the quench and it was first suggested there that the system may not thermalize.…”

Holographic quenches in a confined phase

“…Long times and (non)thermalization. As we mentioned previously, holographic quenches in a confining phase have be studied previously in [29,[56][57][58][59]. In studying a 'hard wall' model [57], it was noticed that the response of the one-point functions remained oscillatory over a long period of time after the quench and it was first suggested there that the system may not thermalize.…”

Holographic quenches in a confined phase