A Time-Dependent Classical Solution of C=1 String Field Theory and Non-Perturbative Effects

Abstract

We describe a real-time classical solution of c=1 string field theory written in terms of the phase space density, u(p,q,t), of the equivalent fermion theory. The solution corresponds to tunnelling of a single fermion above the filled fermi sea and leads to amplitudes that go as (- C/ ). We discuss how one can use this technique to describe non-perturbative effects in the Marinari-Parisi model. We also discuss implications of this type of solution for the two-dimensional black hole.

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