Cargando…
Worldsheet Realization of the Refined Topological String
A worldsheet realization of the refined topological string is proposed in terms of physical string amplitudes that compute generalized N=2 F-terms of the form F_{g,n} W^{2g}Y^{2n} in the effective supergravity action. These terms involve the chiral Weyl superfield W and a superfield Y defined as an...
| Autores principales: | , , , , |
|---|---|
| Lenguaje: | eng |
| Publicado: |
2013
|
| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1016/j.nuclphysb.2013.07.004 http://cds.cern.ch/record/1522209 |
| _version_ | 1780929136596877312 |
|---|---|
| author | Antoniadis, I. Florakis, Ioannis Hohenegger, S. Narain, K.S. Zein Assi, Ahmad |
| author_facet | Antoniadis, I. Florakis, Ioannis Hohenegger, S. Narain, K.S. Zein Assi, Ahmad |
| author_sort | Antoniadis, I. |
| collection | CERN |
| description | A worldsheet realization of the refined topological string is proposed in terms of physical string amplitudes that compute generalized N=2 F-terms of the form F_{g,n} W^{2g}Y^{2n} in the effective supergravity action. These terms involve the chiral Weyl superfield W and a superfield Y defined as an N=2 chiral projection of a particular anti-chiral T-bar vector multiplet. In Heterotic and Type I theories, obtained upon compactification on the six-dimensional manifold K3xT2, T is the usual K\"ahler modulus of the T2 torus. These amplitudes are computed exactly at the one-loop level in string theory. They are shown to reproduce the correct perturbative part of the Nekrasov partition function in the field theory limit when expanded around an SU(2) enhancement point of the string moduli space. The two deformation parameters epsilon_- and epsilon_+ of the Omega-supergravity background are then identified with the constant field-strength backgrounds for the anti-self-dual graviphoton and self-dual gauge field of the T-bar vector multiplet, respectively. |
| id | cern-1522209 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2013 |
| record_format | invenio |
| spelling | cern-15222092019-09-30T06:29:59Zdoi:10.1016/j.nuclphysb.2013.07.004http://cds.cern.ch/record/1522209engAntoniadis, I.Florakis, IoannisHohenegger, S.Narain, K.S.Zein Assi, AhmadWorldsheet Realization of the Refined Topological StringParticle Physics - TheoryA worldsheet realization of the refined topological string is proposed in terms of physical string amplitudes that compute generalized N=2 F-terms of the form F_{g,n} W^{2g}Y^{2n} in the effective supergravity action. These terms involve the chiral Weyl superfield W and a superfield Y defined as an N=2 chiral projection of a particular anti-chiral T-bar vector multiplet. In Heterotic and Type I theories, obtained upon compactification on the six-dimensional manifold K3xT2, T is the usual K\"ahler modulus of the T2 torus. These amplitudes are computed exactly at the one-loop level in string theory. They are shown to reproduce the correct perturbative part of the Nekrasov partition function in the field theory limit when expanded around an SU(2) enhancement point of the string moduli space. The two deformation parameters epsilon_- and epsilon_+ of the Omega-supergravity background are then identified with the constant field-strength backgrounds for the anti-self-dual graviphoton and self-dual gauge field of the T-bar vector multiplet, respectively.A worldsheet realization of the refined topological string is proposed in terms of physical string amplitudes that compute generalized N=2 F-terms of the form F_{g,n} W^{2g}Y^{2n} in the effective supergravity action. These terms involve the chiral Weyl superfield W and a superfield Y defined as an N=2 chiral projection of a particular anti-chiral T-bar vector multiplet. In Heterotic and Type I theories, obtained upon compactification on the six-dimensional manifold K3xT2, T is the usual K\"ahler modulus of the T2 torus. These amplitudes are computed exactly at the one-loop level in string theory. They are shown to reproduce the correct perturbative part of the Nekrasov partition function in the field theory limit when expanded around an SU(2) enhancement point of the string moduli space. The two deformation parameters epsilon_- and epsilon_+ of the Omega-supergravity background are then identified with the constant field-strength backgrounds for the anti-self-dual graviphoton and self-dual gauge field of the T-bar vector multiplet, respectively.A worldsheet realization of the refined topological string is proposed in terms of physical string amplitudes that compute generalized N=2 F-terms of the form F_g_,_nW^2^g@?^2^n in the effective supergravity action. These terms involve the chiral Weyl superfield W and a superfield @? defined as an N=2 chiral projection of a particular anti-chiral T@?-vector multiplet. In Heterotic and Type I theories, obtained upon compactification on the six-dimensional manifold K3xT^2, T is the usual Kahler modulus of the T^2 torus. These amplitudes are computed exactly at the one-loop level in string theory. They are shown to reproduce the correct perturbative part of the Nekrasov partition function in the field theory limit when expanded around an SU(2) enhancement point of the string moduli space. The two deformation parameters @e_- and @e_+ of the @W supergravity background are then identified with the constant field strength backgrounds for the anti-self-dual graviphoton and self-dual gauge field of the T@? vector multiplet, respectively.A worldsheet realization of the refined topological string is proposed in terms of physical string amplitudes that compute generalized N=2 F-terms of the form Fg,nW2gϒ2n in the effective supergravity action. These terms involve the chiral Weyl superfield W and a superfield ϒ defined as an N=2 chiral projection of a particular anti-chiral T¯ -vector multiplet. In Heterotic and Type I theories, obtained upon compactification on the six-dimensional manifold K3×T2 , T is the usual Kähler modulus of the T2 torus. These amplitudes are computed exactly at the one-loop level in string theory. They are shown to reproduce the correct perturbative part of the Nekrasov partition function in the field theory limit when expanded around an SU(2) enhancement point of the string moduli space. The two deformation parameters ϵ− and ϵ+ of the Ω supergravity background are then identified with the constant field strength backgrounds for the anti-self-dual graviphoton and self-dual gauge field of the T¯ vector multiplet, respectively.CERN-PH-TH-2013-001arXiv:1302.6993CERN-PH-TH-2013-001oai:cds.cern.ch:15222092013-03-01 |
| spellingShingle | Particle Physics - Theory Antoniadis, I. Florakis, Ioannis Hohenegger, S. Narain, K.S. Zein Assi, Ahmad Worldsheet Realization of the Refined Topological String |
| title | Worldsheet Realization of the Refined Topological String |
| title_full | Worldsheet Realization of the Refined Topological String |
| title_fullStr | Worldsheet Realization of the Refined Topological String |
| title_full_unstemmed | Worldsheet Realization of the Refined Topological String |
| title_short | Worldsheet Realization of the Refined Topological String |
| title_sort | worldsheet realization of the refined topological string |
| topic | Particle Physics - Theory |
| url | https://dx.doi.org/10.1016/j.nuclphysb.2013.07.004 http://cds.cern.ch/record/1522209 |
| work_keys_str_mv | AT antoniadisi worldsheetrealizationoftherefinedtopologicalstring AT florakisioannis worldsheetrealizationoftherefinedtopologicalstring AT hoheneggers worldsheetrealizationoftherefinedtopologicalstring AT narainks worldsheetrealizationoftherefinedtopologicalstring AT zeinassiahmad worldsheetrealizationoftherefinedtopologicalstring |