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D$^{6}$ℛ$^{4}$ amplitudes in various dimensions
Four-graviton couplings in the low energy effective action of type II string vacua compactified on tori are strongly constrained by supersymmetry and U-duality. While the $R^4$ and $D^4 R^4$ couplings are known exactly in terms of Langlands-Eisenstein series of the U-duality group, the $D^6 R^4$ cou...
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| Lenguaje: | eng |
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2015
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| Acceso en línea: | https://dx.doi.org/10.1007/JHEP04(2015)057 http://cds.cern.ch/record/1989347 |
| _version_ | 1780945664094502912 |
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| author | Pioline, Boris |
| author_facet | Pioline, Boris |
| author_sort | Pioline, Boris |
| collection | CERN |
| description | Four-graviton couplings in the low energy effective action of type II string vacua compactified on tori are strongly constrained by supersymmetry and U-duality. While the $R^4$ and $D^4 R^4$ couplings are known exactly in terms of Langlands-Eisenstein series of the U-duality group, the $D^6 R^4$ couplings are not nearly as well understood. Exploiting the coincidence of the U-duality group in $D=6$ with the T-duality group in $D=5$, we propose an exact formula for the $D^6 R^4$ couplings in type II string theory compactified on $T^4$, in terms of a genus-two modular integral plus a suitable Eisenstein series. The same modular integral computes the two-loop correction to $D^6 R^4$ in 5 dimensions, but here provides the non-perturbative completion of the known perturbative terms in $D=6$. This proposal hinges on a systematic re-analysis of the weak coupling and large radius of the $D^6 R^4$ in all dimensions $D\geq 3$, which fills in some gaps and resolves some inconsistencies in earlier studies. |
| id | cern-1989347 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2015 |
| record_format | invenio |
| spelling | cern-19893472023-10-04T08:54:04Zdoi:10.1007/JHEP04(2015)057http://cds.cern.ch/record/1989347engPioline, BorisD$^{6}$ℛ$^{4}$ amplitudes in various dimensionsParticle Physics - TheoryFour-graviton couplings in the low energy effective action of type II string vacua compactified on tori are strongly constrained by supersymmetry and U-duality. While the $R^4$ and $D^4 R^4$ couplings are known exactly in terms of Langlands-Eisenstein series of the U-duality group, the $D^6 R^4$ couplings are not nearly as well understood. Exploiting the coincidence of the U-duality group in $D=6$ with the T-duality group in $D=5$, we propose an exact formula for the $D^6 R^4$ couplings in type II string theory compactified on $T^4$, in terms of a genus-two modular integral plus a suitable Eisenstein series. The same modular integral computes the two-loop correction to $D^6 R^4$ in 5 dimensions, but here provides the non-perturbative completion of the known perturbative terms in $D=6$. This proposal hinges on a systematic re-analysis of the weak coupling and large radius of the $D^6 R^4$ in all dimensions $D\geq 3$, which fills in some gaps and resolves some inconsistencies in earlier studies.Four-graviton couplings in the low energy effective action of type II string vacua compactified on tori are strongly constrained by supersymmetry and U-duality. While the ℛ$^{4}$ and D$^{4}$ℛ$^{4}$ couplings are known exactly in terms of Langlands-Eisenstein series of the U-duality group, the D$^{6}$ℛ$^{4}$ couplings are not nearly as well understood. Exploiting the coincidence of the U-duality group in D = 6 with the T-duality group in D = 5, we propose an exact formula for the D$^{6}$ℛ$^{4}$ couplings in type II string theory compactified on T$^{4}$, in terms of a genus-two modular integral plus a suitable Eisenstein series. The same modular integral computes the two-loop correction to D$^{6}$ℛ$^{4}$ in 5 dimensions, but here provides the non-perturbative completion of the known perturbative terms in D = 6. This proposal hinges on a systematic re-analysis of the weak coupling and large radius of the D$^{6}$ℛ$^{4}$ in all dimensions D ≥ 3, which fills in some gaps and resolves some inconsistencies in earlier studies.Four-graviton couplings in the low energy effective action of type II string vacua compactified on tori are strongly constrained by supersymmetry and U-duality. While the $R^4$ and $D^4 R^4$ couplings are known exactly in terms of Langlands-Eisenstein series of the U-duality group, the $D^6 R^4$ couplings are not nearly as well understood. Exploiting the coincidence of the U-duality group in $D=6$ with the T-duality group in $D=5$, we propose an exact formula for the $D^6 R^4$ couplings in type II string theory compactified on $T^4$, in terms of a genus-two modular integral plus a suitable Eisenstein series. The same modular integral computes the two-loop correction to $D^6 R^4$ in 5 dimensions, but here provides the non-perturbative completion of the known perturbative terms in $D=6$. This proposal hinges on a systematic re-analysis of the weak coupling and large radius of the $D^6 R^4$ in all dimensions $D\geq 3$, which fills in some gaps and resolves some inconsistencies in earlier studies.arXiv:1502.03377CERN-PH-TH-2015-025CERN-PH-TH-2015-025oai:cds.cern.ch:19893472015-02-11 |
| spellingShingle | Particle Physics - Theory Pioline, Boris D$^{6}$ℛ$^{4}$ amplitudes in various dimensions |
| title | D$^{6}$ℛ$^{4}$ amplitudes in various dimensions |
| title_full | D$^{6}$ℛ$^{4}$ amplitudes in various dimensions |
| title_fullStr | D$^{6}$ℛ$^{4}$ amplitudes in various dimensions |
| title_full_unstemmed | D$^{6}$ℛ$^{4}$ amplitudes in various dimensions |
| title_short | D$^{6}$ℛ$^{4}$ amplitudes in various dimensions |
| title_sort | d$^{6}$ℛ$^{4}$ amplitudes in various dimensions |
| topic | Particle Physics - Theory |
| url | https://dx.doi.org/10.1007/JHEP04(2015)057 http://cds.cern.ch/record/1989347 |
| work_keys_str_mv | AT piolineboris d6r4amplitudesinvariousdimensions |