Energy Quantisation in Bulk Bouncing Tachyon
Abstract
We argue that the closed string energy in the bulk bouncing tachyon background is to be quantised in a simple manner as if strings were trapped in a finite time interval. We discuss it from three different viewpoints; (1) the timelike continuation of the sinh-Gordon model, (2) the dual matrix model description of the (1+1)-dimensional string theory with the bulk bouncing tachyon condensate, (3) the cL=1 limit of the timelike Liouville theory with the dual Liouville potential turned on. There appears to be a parallel between the bulk bouncing tachyon and the full S-brane of D-brane decay. We find the critical value λc of the bulk bouncing tachyon coupling which is analogous to λo=1/2 of the full S-brane coupling, at which the system is thought to be at the bottom of the tachyon potential.
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