Large marginal deformations in string field theory
Jul, 200034 pages
Published in:
- JHEP 10 (2000) 009
e-Print:
- hep-th/0007153 [hep-th]
Report number:
- MRI-P-000703,
- MIT-CTP-3002
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Abstract:
We use the level truncation scheme to obtain accurate descriptions of open bosonic string field configurations corresponding to large marginal deformations such as background Wilson lines. To do so, we solve for all fields as functions of the massless string field, and confirm that the effective potential of the massless field becomes increasingly flat as the level of approximation is increased. Surprisingly, as a result of the merging of two branches of the solution - one originating at zero tachyon vev and the other originating at the tachyonic vacuum - this effective potential exists only for a finite range of values of the massless field. We use the D1 to D0 brane marginal transition on a circle to explore the possibility that this finite range corresponds to the infinite range of the conformal field theory parameter describing marginal deformations, but are unable to arrive at a definitive conclusion.- field theory: string
- field theory: deformation
- string: boson
- Wilson line
- background field
- effective potential
- tachyon
- membrane model: D-brane
- field equations: solution
- numerical calculations
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