Physics – High Energy Physics – High Energy Physics - Theory
Scientific paper
1994-11-11
Physics
High Energy Physics
High Energy Physics - Theory
LaTeX, revtex, epsf, 2-columns 11 pages, plus 6 figures. Minor misprint corrected in eq.11
Scientific paper
Two dimensional classical string theory is solved in any curved spacetime. The complete spacetime required to describe the classical string motions turns out to be larger than the global space required by complete particle geodesics. The solutions are fully classified by their behavior in the asymptotically flat region of spacetime. When the curvature is smooth, the string solutions are deformed folded string solutions as compared to flat spacetime folded strings that were known for 19 years. However, surprizing new stringy behavior becomes evident at curvature singularities such as black holes. The global properties of the classical string theory require that the ``bare singularity region'' of the black hole be included along with the usual black hole spacetime. The mathematical structure needed to describe the solutions include a recursion relation that is analogous to the transfer matrix of lattice theories. This encodes lattice-like properties on the worldsheet on the one hand and the geometry of spacetime on the other hand. A case is made for the presence of folded strings in the quantum theory of non-critical strings for $d\geq 2$.
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