Applications of dispersive sum rules: $ε$-expansion and holography

arXiv: High Energy Physics - Theory Pub Date : 2020-09-28 DOI:10.21468/SciPostPhys.10.6.145
Dean Carmi, J. Penedones, Joao A. Silva, A. Zhiboedov
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引用次数: 40

Abstract

We use Mellin space dispersion relations together with Polyakov conditions to derive a family of sum rules for Conformal Field Theories (CFTs). The defining property of these sum rules is suppression of the contribution of the double twist operators. Firstly, we apply these sum rules to the Wilson-Fisher model in $d=4-\epsilon$ dimensions. We re-derive many of the known results to order $\epsilon^4$ and we make new predictions. No assumption of analyticity down to spin $0$ was made. Secondly, we study holographic CFTs. We use dispersive sum rules to obtain tree-level and one-loop anomalous dimensions. Finally, we briefly discuss the contribution of heavy operators to the sum rules in UV complete holographic theories.
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色散和规则的应用:$ε$-展开和全息
利用Mellin空间色散关系和Polyakov条件,导出了共形场论的和规则族。这些和规则的定义性质是抑制双扭转算子的贡献。首先,我们将这些求和规则应用到$d=4- $ epsilon$维的Wilson-Fisher模型。我们重新推导了许多已知的结果阶$\ ε ^4$,并做出了新的预测。没有假设分析下降到旋转$0$。其次,我们研究了全息cft。我们使用弥散和规则来获得树级和单环异常维数。最后简要讨论了重算子对UV完全全息理论和规则的贡献。
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arXiv: High Energy Physics - Theory
arXiv: High Energy Physics - Theory
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