Peculiar velocity estimation from kinetic SZ effect using deep neural networks

Yuyu Wang, Nesar Ramachandra, Edgar M. Salazar-Canizales, H. Feldman, R. Watkins, K. Dolag
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引用次数: 0

Abstract

The Sunyaev-Zel'dolvich (SZ) effect is expected to be instrumental in measuring velocities of distant clusters in near future telescope surveys. We simplify the calculation of peculiar velocities of galaxy clusters using deep learning frameworks trained on numerical simulations to avoid the estimation of the optical depth. The image of distorted photon backgrounds are generated for idealized observations using one of the largest cosmological hydrodynamical simulations, the Magneticum simulations. The model is tested to be capable peculiar velocities from future kinetic SZ observations under different noise conditions. The deep learning algorithm displays robustness in estimating peculiar velocities from kinetic SZ effect by an improvement in accuracy of about 17% compared to the analytical approach.
基于深度神经网络的动力学SZ效应奇异速度估计
Sunyaev-Zel'dolvich (SZ)效应有望在不久的将来的望远镜调查中用于测量遥远星团的速度。我们利用数值模拟训练的深度学习框架简化了星系团奇特速度的计算,避免了光学深度的估计。畸变光子背景的图像是使用最大的宇宙流体动力学模拟之一的magticum模拟为理想化的观测生成的。在不同的噪声条件下,该模型能够从未来的动力学SZ观测中得到特殊的速度。与分析方法相比,深度学习算法在估计动能SZ效应的特殊速度方面表现出鲁棒性,精度提高了约17%。
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