How unbiased statistical methods lead to biased scientific discoveries: A case study of the Efron–Petrosian statistic applied to the luminosity-redshift evolution of gamma-ray bursts

C. Bryant, J. A. Osborne, A. Shahmoradi
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引用次数: 7

Abstract

Statistical methods are frequently built upon assumptions that limit their applicability to certain problems and conditions. Failure to recognize these limitations can lead to conclusions that may be inaccurate or biased. An example of such methods is the non-parametric Efron-Petrosian test statistic used in the studies of truncated data. We argue and show how the inappropriate use of this statistical method can lead to biased conclusions when the assumptions under which the method is valid do not hold. We do so by reinvestigating the evidence recently provided by multiple independent reports on the evolution of the luminosity/energetics distribution of cosmological Long-duration Gamma-Ray Bursts (LGRBs) with redshift. We show that the effects of detection threshold has been likely significantly underestimated in the majority of previous studies. This underestimation of detection threshold leads to severely-incomplete LGRB samples that exhibit strong apparent luminosity-redshift or energetics-redshift correlations. We further confirm our findings by performing extensive Monte Carlo simulations of the cosmic rates and the luminosity/energy distributions of LGRBs and their detection process.
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无偏统计方法如何导致有偏的科学发现:Efron-Petrosian统计应用于伽马射线暴的光度-红移演化的案例研究
统计方法常常建立在一些假设之上,这些假设限制了它们对某些问题和条件的适用性。未能认识到这些限制可能导致结论不准确或有偏见。这种方法的一个例子是用于截断数据研究的非参数Efron-Petrosian检验统计量。我们论证并表明,当方法有效的假设不成立时,这种统计方法的不当使用如何导致有偏见的结论。为此,我们重新研究了最近由多个独立报告提供的关于具有红移的宇宙学长持续伽马射线暴(LGRBs)的光度/能量分布演化的证据。我们表明,检测阈值的影响可能被大大低估了在大多数以前的研究。这种检测阈值的低估导致LGRB样品严重不完整,表现出强烈的表观光度-红移或能量-红移相关性。我们通过对宇宙速率和lgrb的光度/能量分布及其探测过程进行了广泛的蒙特卡罗模拟,进一步证实了我们的发现。
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