论文标题
箭圈理论和引力波中的保形统一
Conformal Unification in a Quiver Theory and Gravitational Waves
论文作者
论文摘要
引力波的随机背景的检测可以在早期宇宙的$ 10^{ - 13} s $的情况下揭示有关一阶相变(FOPT)的细节。我们专门讨论Quiver型胆量,以避免质子衰变和沙漠假设。基于$ su(3)^{12} $的Quiver以$ e = 4000 $ gev的trinification $ su(3)^3 $中断的质量比标准模型大得多($ g _*= 1,272 $)的无效质量自由度比标准模型大得多($ g _*= 1,272 $)。假设该模型的FOPT我们研究了该模型对广泛的FOPT参数的应变灵敏度。
The detection of a stochastic background of gravitational waves can reveal details about first-order phase transitions (FOPTs) at a time of $10^{-13}s$ of the early universe. We specifically discuss quiver-type GUTs which avoid both proton decay and a desert hypothesis. A quiver based on $SU(3)^{12}$ which breaks at a $E=4000$ GeV to trinification $SU(3)^3$ has a much larger ($g_*=1,272$) number of effective massless degrees of freedom than the Standard Model. Assuming a FOPT for this model we investigate the strain sensitivity of this model for a wide range of FOPT parameters.
