LADDER: Revisiting the Cosmic Distance Ladder with Deep Learning Approaches and Exploring Its Applications

Rahul Shah, Soumadeep Saha, Purba Mukherjee, Utpal Garain and Supratik Pal
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Abstract

We investigate the prospect of reconstructing the “cosmic distance ladder” of the Universe using a novel deep learning framework called LADDER—Learning Algorithm for Deep Distance Estimation and Reconstruction. LADDER is trained on the apparent magnitude data from the Pantheon Type Ia supernova compilation, incorporating the full covariance information among data points, to produce predictions along with corresponding errors. After employing several validation tests with a number of deep learning models, we pick LADDER as the best-performing one. We then demonstrate applications of our method in the cosmological context, including serving as a model-independent tool for consistency checks for other data sets like baryon acoustic oscillations, calibration of high-redshift data sets such as gamma-ray bursts, and use as a model-independent mock-catalog generator for future probes. Our analysis advocates for careful consideration of machine learning techniques applied to cosmological contexts.
阶梯:用深度学习方法重新审视宇宙距离阶梯并探索其应用
我们研究了利用一种名为 "LADDER--深度距离估计和重建学习算法 "的新型深度学习框架重建宇宙 "宇宙距离阶梯 "的前景。LADDER 是在 Pantheon Ia 型超新星汇编的视星等数据上进行训练的,其中包含了数据点之间的全部协方差信息,从而得出预测结果和相应的误差。在对多个深度学习模型进行了多次验证测试后,我们选择了 LADDER 作为表现最佳的模型。然后,我们展示了我们的方法在宇宙学背景下的应用,包括作为独立于模型的工具对重子声学振荡等其他数据集进行一致性检查,校准伽马射线暴等高红移数据集,以及作为独立于模型的模拟目录生成器用于未来的探测。我们的分析主张认真考虑将机器学习技术应用于宇宙学范畴。
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