(p,q)-strings probing five-brane webs
Abstract
In recent work, globally well-defined Type IIB supergravity solutions with geometry warped over a Riemann surface were constructed and conjectured to describe the near-horizon geometry of five-brane webs in the conformal limit. In the present paper, we offer more evidence for this interpretation of the supergravity solutions in terms of five-brane webs. In particular, we explore the behavior of probe -strings in certain families of these backgrounds and compare this behavior to that predicted by microscopic, brane web considerations. In the microscopic picture, we argue that the embedding of a probe string may give rise to the formation of string junctions involving open strings anchored on the branes of the web. We then identify a quantity on the supergravity side that is conjectured to be equivalent to the total junction tension in a class of backgrounds corresponding to brane webs with four semi-infinite external five-branes. In the process, we will show that for general brane web backgrounds, the minimal energy probe string embeddings do not coincide with the embeddings preserving half of the background supersymmetries.
Cite
@article{arxiv.1708.03404,
title = {(p,q)-strings probing five-brane webs},
author = {Justin Kaidi},
journal= {arXiv preprint arXiv:1708.03404},
year = {2017}
}
Comments
40 pages, 14 figures; v2: minor edits, references added; v3: publication version