Title: Exploring the Superimposed Oscillations Parameter Space Show Chinese title

Title: 探索叠加振荡参数空间

Abstract: The space of parameters characterizing an inflationary primordial power spectrum with small superimposed oscillations is explored using Monte Carlo methods. The most interesting region corresponding to high frequency oscillations is included in the analysis. The oscillations originate from some new physics taking place at the beginning of the inflationary phase and characterized by the new energy scale Mc. It is found that the standard slow-roll model remains the most probable one given the first year WMAP data. At the same time, the oscillatory models better fit the data on average, which is consistent with previous works on the subject. This is typical of a situation where volume effects in the parameter space play a significant role. Then, we find the amplitude of the oscillations to be less than 22% of the mean amplitude and the new scale Mc to be such that H/Mc < 6.6 x 10^(-4) at 1-sigma level, where H is the scale of inflation. Show Chinese abstract

Abstract: 利用蒙特卡洛方法探索了描述具有小叠加振荡的膨胀初期幂谱参数空间。分析中包含了对应于高频振荡的最有趣区域。 这些振荡起源于发生在膨胀阶段开始时的某种新物理现象，并由新的能量尺度Mc表征。 结果发现，给定第一年的WMAP数据后，标准的慢滚模型仍然是最有可能的模型。同时，振荡模型平均而言更好地拟合了数据，这与之前关于该主题的工作一致。 这种情况在参数空间中体积效应起重要作用时很典型。 然后，我们发现振荡幅度小于平均幅度的22%，新的尺度Mc满足H/Mc < 6.6 x 10^(-4)（1-σ水平），其中H是膨胀尺度。