English

Quantisation of the effective string with TBA

High Energy Physics - Theory 2013-06-20 v3 High Energy Physics - Lattice Mathematical Physics math.MP

Abstract

In presence of a static pair of sources, the spectrum of low-lying states of whatever confining gauge theory in D space-time dimensions is described, at large source separations, by an effective string theory. In the far infrared the latter flows, in the static gauge, to a two-dimensional massless free-field theory. It is known that the Lorentz invariance of the gauge theory fixes uniquely the first few subleading corrections of this free-field limit. We point out that the first allowed correction - a quartic polynomial in the field derivatives - is exactly the composite field TTˉT\bar{T}, built with the chiral components, TT and Tˉ\bar{T}, of the energy-momentum tensor. This irrelevant perturbation is quantum integrable and yields, through the thermodynamic Bethe Ansatz (TBA),the energy levels of the string which exactly coincide with the Nambu-Goto spectrum. We obtain this way the results recently found by Dubovsky, Flauger and Gorbenko. This procedure easily generalizes to any two-dimensional CFT. It is known that the leading deviation of the Nambu-Goto spectrum comes from the boundary terms of the string action. We solve the TBA equations on an infinite strip, identify the relevant boundary parameter and verify that it modifies the string spectrum as expected.

Keywords

Cite

@article{arxiv.1305.1278,
  title  = {Quantisation of the effective string with TBA},
  author = {Michele Caselle and Davide Fioravanti and Ferdinando Gliozzi and Roberto Tateo},
  journal= {arXiv preprint arXiv:1305.1278},
  year   = {2013}
}

Comments

25 pages, 2 PDF figures, PDFLatex. v2: typos corrected, two references added, new comments in sections 6 and 7. v3: minor amendments, to be published in JHEP

R2 v1 2026-06-22T00:12:18.143Z