Gravitational Scattering in the c = 1 Matrix Model

Makoto Natsuume; Joseph Polchinski

Gravitational Scattering in the c = 1 Matrix Model

Makoto Natsuume, Joseph Polchinski

Abstract

The $c=1$ matrix model is equivalent to $1+1$ dimensional string theory. However, the tachyon self-interaction in the former is local, while in the latter it is nonlocal due to the gravitational, dilaton and higher string fields. By studying scattering of classical pulses we show that the appropriate nonlocal field redefinition converts the local matrix model interaction into the expected string form. In particular, we see how the asymptotic behavior of the gravitational field appears in the scattering.

Gravitational Scattering in the c = 1 Matrix Model

Abstract

The

matrix model is equivalent to

dimensional string theory. However, the tachyon self-interaction in the former is local, while in the latter it is nonlocal due to the gravitational, dilaton and higher string fields. By studying scattering of classical pulses we show that the appropriate nonlocal field redefinition converts the local matrix model interaction into the expected string form. In particular, we see how the asymptotic behavior of the gravitational field appears in the scattering.

Gravitational Scattering in the c = 1 Matrix Model

Abstract

Gravitational Scattering in the c = 1 Matrix Model

Abstract

Paper Structure

Table of Contents