http://arxiv.org/abs/2109.12483
Noise is a significant part within a millimeter-wave molecular line datacube. Analyzing the noise improves our understanding of noise characteristics, and further contributes to scientific discoveries. We measure the noise level of a single datacube from MWISP and perform statistical analyses. We identified major factors which increase the noise level of a single datacube, including bad channels, edge effects, baseline distortion, and line contamination. Cleaning algorithms are applied to remove or reduce these noise components. As a result, we obtained the cleaned datacube which noise follows a positively skewed normal distribution. We further analyzed the noise structure distribution of a 3D mosaicked datacube in the range l = 40{\deg}.7 to 43{\deg}.3 and b = -2{\deg}.3 to 0{\deg}.3 and found that noise of the final mosaicked datacube is mainly characterized by the noise fluctuation among the cells.
J. Cai, J. Yang, S. Zheng, et. al.
Tue, 28 Sep 21
88/89
Comments: N/A