A relativistic scalar model for fractional interaction between dark matter and gravity

Francesco Benetti, A. Lapi, G. Gandolfi, Stefano Liberati
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Abstract

In a series of recent papers we put forward a “fractional gravity” framework striking an intermediate course between a modified gravity theory and an exotic dark matter (DM) scenario, which envisages the DM component in virialized halos to feel a non-local interaction mediated by gravity. The remarkable success of this model in reproducing several aspects of DM phenomenology motivates us to look for a general relativistic extension. Specifically, we propose a theory, dubbed Relativistic Scalar Fractional Gravity or RSFG, in which the trace of the DM stressenergy tensor couples to the scalar curvature via a non-local operator constructed with a fractional power of the d’Alembertian. We derive the field equations starting from an action principle, and then we investigate their weak field limit, demonstrating that in the Newtonian approximation the fractional gravity setup of our previous works is recovered. We compute the first-order post-Newtonian parameter γ and its relation with weak lensing, showing that although in RSFG the former deviates from its GR values of unity, the latter is unaffected. We also perform a standard scalar-vectortensor-decomposition of RSFG in the weak field limit, to highlight that gravitational waves propagate at the speed of light, though also an additional scalar mode becomes dynamical. Finally, we derive the modified conservation laws of the DM stress energy tensor in RSFG, showing that a new non-local force emerges, and hence that the DM fluid deviates from the geodesic solutions of the field equations.
暗物质与引力分数相互作用的相对论标量模型
在最近的一系列论文中,我们提出了一个 "分数引力 "框架,它是介于修正引力理论和奇异暗物质(DM)方案之间的一个中间方案。这一模型在重现 DM 现象的几个方面取得了巨大成功,促使我们寻找广义相对论的延伸。具体地说,我们提出了一种被称为相对论标量分数引力(RSFG)的理论,在这种理论中,DM应力能张量的痕量通过一个用达朗贝尔分数幂构造的非局域算子与标量曲率耦合。我们从作用原理出发推导出了场方程,然后研究了它们的弱场极限,证明在牛顿近似中,我们之前工作中的分数引力设置得到了恢复。我们计算了一阶后牛顿参数γ 及其与弱透镜的关系,结果表明,尽管在 RSFG 中,前者偏离了其 GR 值的统一性,但后者却不受影响。我们还对弱场极限下的 RSFG 进行了标准的标量-向量-张量分解,以强调引力波是以光速传播的,尽管还有一个额外的标量模式成为动力学模式。最后,我们推导出 RSFG 中 DM 应力能量张量的修正守恒定律,表明出现了一种新的非局部力,因此 DM 流体偏离了场方程的大地解。
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