NUT charge weak gravity conjecture from dimensional reduction

S. Cremonini, Callum R. T. Jones, James T. Liu, B. McPeak, Yuezhang Tang
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引用次数: 14

Abstract

We analyze the constraints on four-derivative corrections to 5d Einstein-Maxwell theory from the black hole Weak Gravity Conjecture (WGC). We calculate the leading corrections to the extremal mass of asymptotically flat 5d charged solutions as well as 4d Kaluza-Klein compactifications. The WGC bounds from the latter, interpreted as 4d dyonic black holes, are found to be strictly stronger. As magnetic graviphoton charge lifts to a NUT-like charge in 5d, we argue that the logic of the WGC should apply to these topological charges as well and leads to new constraints on purely gravitational theories.
由降维得到的NUT电荷弱引力猜想
从黑洞弱引力猜想(WGC)出发,分析了五维爱因斯坦-麦克斯韦理论的四阶导数修正的约束。我们计算了渐近平面5d带电解和4d Kaluza-Klein紧化的极值质量的前导修正。后者的WGC边界被解释为四维动态黑洞,被发现严格更强。当磁性引力光子电荷在5d时提升到类似nutd的电荷时,我们认为WGC的逻辑也应该适用于这些拓扑电荷,并导致纯引力理论的新约束。
本文章由计算机程序翻译,如有差异,请以英文原文为准。
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