I. Iliev scite author profile

We find explicit solutions for giant magnons and spiky strings living on the Schrödinger space Schr 5 × T 1,1 and compute dispersion relations. The holographic dual field theory is conjectured to be a non-local dipole-deformed CFT at strong coupling. We find that the dependence between conserved charges in the dispersion relations is transcendental, which is quite different from the most symmetric case of spherical internal space. Keeping the squashing parameter b general allows us to take some limits and to compare our results to known cases.

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Holographic Fisher Information Metric in Schrödinger Spacetime

Dimov¹,

Iliev²,

Radomirov³

et al. 2020

Preprint

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Pulsating strings in Schr₅ × T ^1,1 background

Golubtsova¹,

Dimov²,

Iliev³

et al. 2020

J. Phys. A: Math. Theor.

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The quest for extension of holographic correspondence to non-relativistic sectors naturally includes Schrödinger backgrounds and their field theory duals. In this paper we study the holography by probing the correspondence with pulsating strings. The case we consider is pulsating strings in five-dimensional Schrödinger space times five-torus T 1,1, which has as field theory dual a dipole CFT. First we find particular pulsating string solutions and then semi-classically quantize the theory. We obtain the wave function of the problem and thoroughly study the corrections to the energy, which by duality are supposed to give anomalous dimensions of certain operators in the dipole CFT.

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I. Iliev

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I. Iliev

More on Schrödinger holography

Uncertainty of the potential curve minimum for diatomic molecules extrapolated from Dunham type coefficients

More on Schrödinger holography

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Contact Info

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Pulsating strings in Schr₅ × T ^1,1 background