Dilatonic states near holographic phase transitions

Daniel Elander, M. Piai, John Roughley
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引用次数: 8

Abstract

The spectrum of bound states of special strongly coupled confining field theories might include a parametrically light dilaton, associated with the formation of enhanced condensates that break (approximate) scale invariance spontaneously. It has been suggested in the literature that such a state may arise in connection with the theory being close to the unitarity bound in holographic models. We extend these ideas to cases where the background geometry is non-AdS, and the gravity description of the dual confining field theory has a top-down origin in supergravity. We exemplify this programme by studying the circle compactification of Romans six-dimensional half-maximal supergravity. We uncover a rich space of solutions, many of which were previously unknown in the literature. We compute the bosonic spectrum of excitations, and identify a tachyonic instability in a region of parameter space for a class of regular background solutions. A tachyon only exists along an energetically disfavoured (unphysical) branch of solutions of the gravity theory; we find evidence of a first-order phase transition that separates this region of parameter space from the physical one. Along the physical branch of regular solutions, one of the lightest scalar particles is approximately a dilaton, and it is associated with a condensate in the underlying theory. Yet, because of the location of the phase transition, its mass is not parametrically small, and it is, coincidentally, the next-to-lightest scalar bound state, rather than the lightest one.
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全息相变附近的扩张态
特殊强耦合约束场理论的束缚态谱可能包括一个参数光膨胀,与自发打破(近似)尺度不变性的增强凝聚体的形成有关。在文献中提出,这种状态可能与全息模型中接近统一界的理论有关。我们将这些想法扩展到背景几何是非ads的情况,并且对偶约束场论的重力描述在超重力中具有自上而下的起源。我们通过研究罗马六维半极大超引力的圆紧化来举例说明这一方案。我们发现了解决方案的丰富空间,其中许多是以前在文献中未知的。我们计算了激励的玻色子谱,并识别了一类正则背景解在参数空间区域内的速子不稳定性。速子只存在于引力理论解的能量不利(非物理)分支上;我们发现了一阶相变的证据,它将这个参数空间区域与物理区域分开。沿着正则解的物理分支,最轻的标量粒子之一近似为膨胀子,并且在基础理论中与凝聚相关联。然而,由于相变的位置,它的质量参数并不小,而且,巧合的是,它是次轻的标量束缚态,而不是最轻的。
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