{
  "id": "hep-th/0302098",
  "version": "v1",
  "published": "2003-02-13T14:35:27.000Z",
  "updated": "2003-02-13T14:35:27.000Z",
  "title": "The Yang Mills* Gravity Dual",
  "authors": [
    "David E. Crooks",
    "Nick Evans"
  ],
  "comment": "8 pages, 2 figures",
  "categories": [
    "hep-th",
    "hep-lat",
    "hep-ph"
  ],
  "abstract": "We describe a ten dimensional supergravity geometry which is dual to a gauge theory that is non-supersymmetric Yang Mills in the infra-red but reverts to $N$=4 super Yang Mills in the ultra-violet. A brane probe of the geometry shows that the scalar potential of the gauge theory is stable. We discuss the infra-red behaviour of the solution. The geometry describes a Schroedinger equation potential that determines the glueball spectrum of the theory; there is a mass gap and a discrete spectrum. The glueball mass predictions match previous AdS/CFT Correspondence computations in the non-supersymmetric Yang Mills theory, and lattice data, at the 10% level. (Based on a talk presented at SCGT02 in Nagoya, Japan)",
  "revisions": [
    {
      "version": "v1",
      "updated": "2003-02-13T14:35:27.000Z"
    }
  ],
  "analyses": {
    "keywords": [
      "gravity dual",
      "gauge theory",
      "non-supersymmetric yang mills theory",
      "glueball mass predictions match",
      "schroedinger equation potential"
    ],
    "note": {
      "typesetting": "TeX",
      "pages": 8,
      "language": "en",
      "license": "arXiv",
      "status": "editable",
      "inspire": 613314
    }
  }
}