Primordial Stochastic Gravitational Wave Backgrounds from a Sharp Feature in Three-field Inflation II: The Inflationary Era

Vikas Aragam, Sonia Paban, Robert Rosati
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Abstract

We study the contribution of large scalar perturbations sourced by a sharp feature during cosmic inflation to the stochastic gravitational wave background (SGWB), extending our previous work to include the SGWB sourced during the inflationary era. We focus in particular on three-field inflation, since the third dynamical field is the first not privileged by the perturbations' equations of motion and allows a more direct generalization to $N$-field inflation. For the first time, we study the three-field isocurvature perturbations sourced during the feature and include the effects of isocurvature masses. In addition to a two-field limit, we find that the third field's dynamics during the feature can source large isocurvature transients which then later decay, leaving an inflationary-era-sourced SGWB as their only observable signature. We find that the inflationary-era signal shape near the peak is largely independent of the number of dynamical fields and has a greatly enhanced amplitude sourced by the large isocurvature transient, suppressing the radiation-era contribution and opening a new window of detectable parameter space with small adiabatic enhancement. The largest enhancements we study could easily violate backreaction constraints, but much of parameter space remains under perturbative control. These SGWBs could be visible in LISA and other gravitational wave experiments, leaving an almost universal signature of sharp features during multi-field inflation, even when the sourcing isocurvature decays to unobservability shortly afterwards.
来自三场膨胀中一个尖锐特征的原始随机引力波背景 II:膨胀时代
我们研究了宇宙膨胀期间由尖锐特征产生的大尺度扰动对随机引力波背景(SGWB)的贡献,扩展了我们之前的工作,以包括膨胀时代产生的引力波背景。我们特别关注三场膨胀,因为第三个动力场是第一个不受扰动运动方程影响的动力场,可以更直接地概括为 $N$ 场膨胀。我们首次研究了在特征过程中产生的三场等容温度扰动,并将等容温度质量的影响包括在内。除了两场极限之外,我们还发现第三场在特征期间的动力学可以产生巨大的等曲率瞬变,这些瞬变随后会衰减,只留下一个膨胀时代产生的 SGWB 作为其唯一可观测到的特征。我们发现,峰值附近的暴胀时代信号形状在很大程度上与动力场的数量无关,并且由大等曲率瞬态产生的振幅大大增强,从而抑制了辐射时代的贡献,并打开了一个具有小绝热增强的可探测参数空间的新窗口。我们研究的最大增强很容易违反反作用约束,但大部分参数空间仍然处于微扰控制之下。这些SGWB可以在LISA和其他引力波实验中看到,在多场膨胀过程中留下一个几乎普遍的尖锐特征,即使来源的等曲率在不久之后衰减到不可观测的程度。
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