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Predictive power of renormalisation group flows: a comparison
We study a proper-time renormalisation group, which is based on an operator cut-off regularisation of the one-loop effective action. The predictive power of this approach is constrained because the flow is not an exact one. We compare it to the Exact Renormalisation Group, which is based on a moment...
| Autores principales: | , |
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| Lenguaje: | eng |
| Publicado: |
2001
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| Materias: | |
| Acceso en línea: | https://dx.doi.org/10.1016/S0370-2693(01)00922-4 http://cds.cern.ch/record/507359 |
| _version_ | 1780897403723841536 |
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| author | Litim, Daniel F. Pawlowski, Jan M. |
| author_facet | Litim, Daniel F. Pawlowski, Jan M. |
| author_sort | Litim, Daniel F. |
| collection | CERN |
| description | We study a proper-time renormalisation group, which is based on an operator cut-off regularisation of the one-loop effective action. The predictive power of this approach is constrained because the flow is not an exact one. We compare it to the Exact Renormalisation Group, which is based on a momentum regulator in the Wilsonian sense. In contrast to the former, the latter provides an exact flow. To leading order in a derivative expansion, an explicit map from the exact to the proper-time renormalisation group is established. The opposite map does not exist in general. We discuss various implications of these findings, in particular in view of the predictive power of the proper-time renormalisation group. As an application, we compute critical exponents for O(N)-symmetric scalar theories at the Wilson-Fisher fixed point in 3d from both formalisms. |
| id | cern-507359 |
| institution | Organización Europea para la Investigación Nuclear |
| language | eng |
| publishDate | 2001 |
| record_format | invenio |
| spelling | cern-5073592023-03-14T18:01:43Zdoi:10.1016/S0370-2693(01)00922-4http://cds.cern.ch/record/507359engLitim, Daniel F.Pawlowski, Jan M.Predictive power of renormalisation group flows: a comparisonParticle Physics - TheoryWe study a proper-time renormalisation group, which is based on an operator cut-off regularisation of the one-loop effective action. The predictive power of this approach is constrained because the flow is not an exact one. We compare it to the Exact Renormalisation Group, which is based on a momentum regulator in the Wilsonian sense. In contrast to the former, the latter provides an exact flow. To leading order in a derivative expansion, an explicit map from the exact to the proper-time renormalisation group is established. The opposite map does not exist in general. We discuss various implications of these findings, in particular in view of the predictive power of the proper-time renormalisation group. As an application, we compute critical exponents for O(N)-symmetric scalar theories at the Wilson-Fisher fixed point in 3d from both formalisms.We study a proper-time renormalisation group, which is based on an operator cut-off regularisation of the one-loop effective action. The predictive power of this approach is constrained because the flow is not an exact one. We compare it to the Exact Renormalisation Group, which is based on a momentum regulator in the Wilsonian sense. In contrast to the former, the latter provides an exact flow. To leading order in a derivative expansion, an explicit map from the exact to the proper-time renormalisation group is established. The opposite map does not exist in general. We discuss various implications of these findings, in particular in view of the predictive power of the proper-time renormalisation group. As an application, we compute critical exponents for O(N)-symmetric scalar theories at the Wilson-Fisher fixed point in 3d from both formalisms.We study a proper-time renormalisation group, which is based on an operator cut-off regularisation of the one-loop effective action. The predictive power of this approach is constrained because the flow is not an exact one. We compare it to the Exact Renormalisation Group, which is based on a momentum regulator in the Wilsonian sense. In contrast to the former, the latter provides an exact flow. To leading order in a derivative expansion, an explicit map from the exact to the proper-time renormalisation group is established. The opposite map does not exist in general. We discuss various implications of these findings, in particular in view of the predictive power of the proper-time renormalisation group. As an application, we compute critical exponents for O(N)-symmetric scalar theories at the Wilson-Fisher fixed point in 3d from both formalisms.We study a proper-time renormalisation group, which is based on an operator cut-off regularisation of the one-loop effective action. The predictive power of this approach is constrained because the flow is not an exact one. We compare it to the Exact Renormalisation Group, which is based on a momentum regulator in the Wilsonian sense. In contrast to the former, the latter provides an exact flow. To leading order in a derivative expansion, an explicit map from the exact to the proper-time renormalisation group is established. The opposite map does not exist in general. We discuss various implications of these findings, in particular in view of the predictive power of the proper-time renormalisation group. As an application, we compute critical exponents for O ( N )-symmetric scalar theories at the Wilson–Fisher fixed point in 3 d from both formalisms.hep-th/0107020CERN-TH-2001-169FAU-TP3-01-05CERN-TH-2001-169FAU-TP-3-2001-05oai:cds.cern.ch:5073592001-07-03 |
| spellingShingle | Particle Physics - Theory Litim, Daniel F. Pawlowski, Jan M. Predictive power of renormalisation group flows: a comparison |
| title | Predictive power of renormalisation group flows: a comparison |
| title_full | Predictive power of renormalisation group flows: a comparison |
| title_fullStr | Predictive power of renormalisation group flows: a comparison |
| title_full_unstemmed | Predictive power of renormalisation group flows: a comparison |
| title_short | Predictive power of renormalisation group flows: a comparison |
| title_sort | predictive power of renormalisation group flows: a comparison |
| topic | Particle Physics - Theory |
| url | https://dx.doi.org/10.1016/S0370-2693(01)00922-4 http://cds.cern.ch/record/507359 |
| work_keys_str_mv | AT litimdanielf predictivepowerofrenormalisationgroupflowsacomparison AT pawlowskijanm predictivepowerofrenormalisationgroupflowsacomparison |