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Exact $\nabla^4 R^4$ couplings and helicity supertraces
In type II string theory compactified on a d-dimensional torus T$^{d}$ down to D = 10−ddimensions,the ℛ$^{4}$ and ∇$^{4}$ℛ$^{4}$ four-gravitoncouplingsareknownexactly,forall values of the moduli, in terms of certain Eisenstein series of the U-duality group E$_{d}$ (ℤ). In the limit where one circle...
| Autores principales: | , |
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| Lenguaje: | eng |
| Publicado: |
2016
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| Acceso en línea: | https://dx.doi.org/10.1007/JHEP01(2017)050 http://cds.cern.ch/record/2226938 |
| _version_ | 1780952429800456192 |
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| author | Bossard, Guillaume Pioline, Boris |
| author_facet | Bossard, Guillaume Pioline, Boris |
| author_sort | Bossard, Guillaume |
| collection | CERN |
| description | In type II string theory compactified on a d-dimensional torus T$^{d}$ down to D = 10−ddimensions,the ℛ$^{4}$ and ∇$^{4}$ℛ$^{4}$ four-gravitoncouplingsareknownexactly,forall values of the moduli, in terms of certain Eisenstein series of the U-duality group E$_{d}$ (ℤ). In the limit where one circle in the torus becomes large, these couplings are expected to reduce to their counterpart in dimension D +1, plus threshold effects and exponentially suppressed corrections corresponding to BPS black holes in dimension D + 1 whose worldline winds around the circle. By combining the weak coupling and large radius limits, we determine these exponentially suppressed corrections exactly, and demonstrate that the contributions of 1/4-BPS black holes to the ∇$^{4}$ℛ$^{4}$ coupling are proportional to the appropriate helicity supertrace. Mathematically, our results provide the complete Fourier expansion of the next-to-minimal theta series of E$_{d + 1}$(ℤ) with respect to the maximal parabolic subgroup with Levi component E$_{d}$ for d ≤ 6, and the complete Abelian part of the Fourier expansion of the same for d = 7. |
| id | cern-2226938 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2016 |
| record_format | invenio |
| spelling | cern-22269382023-10-04T07:58:14Zdoi:10.1007/JHEP01(2017)050http://cds.cern.ch/record/2226938engBossard, GuillaumePioline, BorisExact $\nabla^4 R^4$ couplings and helicity supertraceshep-thParticle Physics - TheoryIn type II string theory compactified on a d-dimensional torus T$^{d}$ down to D = 10−ddimensions,the ℛ$^{4}$ and ∇$^{4}$ℛ$^{4}$ four-gravitoncouplingsareknownexactly,forall values of the moduli, in terms of certain Eisenstein series of the U-duality group E$_{d}$ (ℤ). In the limit where one circle in the torus becomes large, these couplings are expected to reduce to their counterpart in dimension D +1, plus threshold effects and exponentially suppressed corrections corresponding to BPS black holes in dimension D + 1 whose worldline winds around the circle. By combining the weak coupling and large radius limits, we determine these exponentially suppressed corrections exactly, and demonstrate that the contributions of 1/4-BPS black holes to the ∇$^{4}$ℛ$^{4}$ coupling are proportional to the appropriate helicity supertrace. Mathematically, our results provide the complete Fourier expansion of the next-to-minimal theta series of E$_{d + 1}$(ℤ) with respect to the maximal parabolic subgroup with Levi component E$_{d}$ for d ≤ 6, and the complete Abelian part of the Fourier expansion of the same for d = 7.In type II string theory compactified on a $d$-dimensional torus $T^d$ down to $D=10-d$ dimensions, the $R^4$ and $\nabla^4 R^4$ four-graviton couplings are known exactly, for all values of the moduli, in terms of certain Eisenstein series of the U-duality group $E_{d}(\mathbb{Z})$. In the limit where one circle in the torus becomes large, these couplings are expected to reduce to their counterpart in dimension $D+1$, plus threshold effects and exponentially suppressed corrections corresponding to BPS black holes in dimension $D+1$ whose worldline winds around the circle. By combining the weak coupling and large radius limits, we determine these exponentially suppressed corrections exactly, and demonstrate that the contributions of 1/4-BPS black holes to the $\nabla^4 R^4$ coupling are proportional to the appropriate helicity supertrace. Mathematically, our results provide the complete Fourier expansion of the next-to-minimal theta series of $E_{d+1}(\mathbb{Z})$ with respect to the maximal parabolic subgroup with Levi component $E_{d}$ for $d\leq 6$, and the complete Abelian part of the Fourier expansion of the same for $d=7$.arXiv:1610.06693CERN-TH-2016-224CPHT-RR046.102016oai:cds.cern.ch:22269382016-10-21 |
| spellingShingle | hep-th Particle Physics - Theory Bossard, Guillaume Pioline, Boris Exact $\nabla^4 R^4$ couplings and helicity supertraces |
| title | Exact $\nabla^4 R^4$ couplings and helicity supertraces |
| title_full | Exact $\nabla^4 R^4$ couplings and helicity supertraces |
| title_fullStr | Exact $\nabla^4 R^4$ couplings and helicity supertraces |
| title_full_unstemmed | Exact $\nabla^4 R^4$ couplings and helicity supertraces |
| title_short | Exact $\nabla^4 R^4$ couplings and helicity supertraces |
| title_sort | exact $\nabla^4 r^4$ couplings and helicity supertraces |
| topic | hep-th Particle Physics - Theory |
| url | https://dx.doi.org/10.1007/JHEP01(2017)050 http://cds.cern.ch/record/2226938 |
| work_keys_str_mv | AT bossardguillaume exactnabla4r4couplingsandhelicitysupertraces AT piolineboris exactnabla4r4couplingsandhelicitysupertraces |