(F1, D1, D3)Bound State, Its Scaling Limits and SL(2, Z)Duality
スポンサーリンク
概要
- 論文の詳細を見る
We discuss the properties of the bound state(F1, D1, D3) in IIB supergravity in three different scaling limits and the SL(2, Z) transformation of the resulting theories. In the simple decoupling limit with finite electric and magnetic components of NS B field, the worldvolume theory is the N=4 super Yang-Mills(SYM) and the supergravity dual is still the AdS_5 × S^5. In the large magnetic field limit with finite electric field, the theory is the noncommutative super Yang-Mills(NCSYM), and the supergravity dual is the same as that without the electric background. We show how to take the decoupling limit of the closed string for the critical electric background and finite magnetic field, and that the resulting theory is the noncommutative open string(NCOS) with both space-time and space-space noncommutativities. It is shown that under the SL(2, Z) transformation, the SYM becomes itself with a different coupling constant, the NCSYM is mapped to a NCOS, and the NCOS in general transforms into another NCOS and reduces to a NCSYM in a special case.
- 2000-11-25
著者
-
Ohta N
Department Of Physics Osaka University
-
Ohta Nobuyoshi
Department Of Physics Kinki University
-
CAI Rong-Gen
Department of Physics, Osaka University
-
Ohta Nobuyoshi
Department Of Physics Graduate School Of Science Osaka University
-
Cai Rong-gen
Department Of Physics Osaka University
関連論文
- Global Structure of Black Holes in String Theory with Gauss-Bonnet Correction in Various Dimensions(Particles and Fields)
- Black Holes in the Dilatonic Einstein-Gauss-Bonnet Theory in Various Dimensions. III : Asymptotically AdS Black Holes with k=±1(Particles and Fields)
- Low Energy Theorems in N=1 Supersymmetric Theory : Particles and Fields
- Black Holes in the Dilatonic Einstein-Gauss-Bonnet Theory in Various Dimensions. IV : Topological Black Holes with and without Cosmological Term(Particles and Fields)
- (F1, D1, D3)Bound State, Its Scaling Limits and SL(2, Z)Duality
- Accelerating Cosmologies in the Einstein-Gauss-Bonnet Theory with a Dilaton(Astrophysics and Relativity)
- Black Holes in the Dilatonic Einstein-Gauss-Bonnet Theory in Various Dimensions. II : Asymptotically AdS Topological Black Holes(Particles and Fields)
- Black Holes in the Dilatonic Einstein-Gauss-Bonnet Theory in Various Dimensions. I : Asymptotically Flat Black Holes(Astrophysics and Cosmology)
- Time-Dependent Supersymmetric Solutions in M-Theory and the Compactification-Decompactification Transition(Astrophysics and Relativity)
- A Universal String Theory
- All the Exact Solutions of Generalized Calogero-Sutherland Models
- A Study of Accelerating Cosmologies from Superstring/M Theories(Particles and Fields)
- Introduction to Branes and M-Theory for Relativists and Cosmologists
- Noncommutative Gauge Dynamics from Brane Configurations with Background B Field
- On the No-Ghost Theorem in String Theory(Particles and Fields)
- Intorduction to Branes and M-Theory for Relativists and Cosmologists
- Grand Unified Theories Based on Local Supersymmetry
- A Study of Accelerating Cosmologies from Superstring/M Theories
- Time-Dependent Supersymmetric Solutions in M-Theory and the Compactification-Decompactification Transition
- Introduction to Branes and M-Theory for Relativists and Cosmologists (Brane World: New Perspective in Cosmology)