Quantum backreaction of O(N) -symmetric scalar fields and de Sitter spacetimes at the renormalization point: Renormalization schemes and the screening of the cosmological constant

Diana L. López Nacir, Juli'an Rovner
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引用次数: 1

Abstract

We consider a theory of $N$ self-interacting quantum scalar fields with quartic $O(N)$-symmetric potential, with a coupling constant $\lambda$, in a generic curved spacetime. We analyze the renormalization process of the Semiclassical Einstein Equations at leading order in the $1/N$ expansion for different renormailzation schemes, namely: the traditional one that sets the geometry of the spacetime to be Minkowski at the renormalization point, and new schemes (originally proposed in [1,2]) which set the geometry to be that of a fixed de Sitter spacetime. In particular, we study the quantum backreaction for fields in de Sitter spacetimes with masses much smaller than the expansion rate $H$. We find that the scheme that uses the classical de Sitter background solution at the renormalization point, stands out as the most appropriate to study the quantum effects on de Sitter spacetimes. Adopting such scheme we obtain the backreaction is suppressed by $H^2/M_{pl}^2$ with no logarithmic enhancement factor of $\ln{\lambda}$, giving only a small screening of the classical cosmological constant due to the backreaction of such quantum fields. We point out the use of the new schemes can also be more appropriate than the traditional one to study quantum effects in other spacetimes relevant for cosmology.
重整化点上O(N)对称标量场和德西特时空的量子反反应:重整化方案和宇宙常数的筛选
我们考虑了在一般弯曲时空中具有耦合常数$\lambda$的四次$O(N)$对称势的$N$自相互作用量子标量场理论。我们分析了不同重整方案在$1/N$展开中前导阶的半经典爱因斯坦方程的重整过程,即:将重整点的时空几何设置为Minkowski的传统重整方案,以及将几何设置为固定de Sitter时空的新方案(最初提出于[1,2])。特别地,我们研究了质量远小于膨胀率$H$的德西特时空场的量子逆反应。我们发现在重整化点使用经典德西特背景解的方案最适合研究德西特时空上的量子效应。采用这种方案,我们得到了反向反应被$H^2/M_{pl}^2$抑制,没有对数增强因子$\ln{\lambda}$,由于这种量子场的反向反应,只给出了经典宇宙学常数的小筛选。我们指出,使用新方案也可以比传统方案更适合于研究与宇宙学相关的其他时空中的量子效应。
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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