{ "id": "2210.13717", "version": "v1", "published": "2022-10-25T02:28:58.000Z", "updated": "2022-10-25T02:28:58.000Z", "title": "An unbiased method of measuring the ratio of two data sets", "authors": [ "Zeyang Sun", "Pengjie Zhang", "Ji Yao", "Fuyu Dong", "Huanyuan Shan", "Eric Jullo", "Jean-Paul Kneib", "Boyan Yin" ], "comment": "10 pages, 8 figures, submitted to MNRAS", "categories": [ "astro-ph.CO" ], "abstract": "In certain cases of astronomical data analysis, the meaningful physical quantity to extract is the ratio $R$ between two data sets. Examples include the lensing ratio, the interloper rate in spectroscopic redshift samples, the decay rate of gravitational potential and $E_G$ to test gravity. However, simply taking the ratio of the two data sets is biased, since it renders (even statistical) errors in the denominator into systematic errors in $R$. Furthermore, it is not optimal in minimizing statistical errors of $R$. Based on the Bayesian analysis and the usual assumption of Gaussian error in the data, we derive an analytical expression of the posterior PDF $P(R)$. This result enables fast and unbiased $R$ measurement, with minimal statistical errors. Furthermore, it relies on no underlying model other than the proportionality relation between the two data sets. Even more generally, it applies to the cases where the proportionality relation holds for the underlying physics/statistics instead of the two data sets directly. It also applies to the case of multiple ratios ($R\\rightarrow {\\bf R}=(R_1,R_2,\\cdots)$). We take the lensing ratio as an example to demonstrate our method. We take lenses as DESI imaging survey galaxies, and sources as DECaLS cosmic shear and \\emph{Planck} CMB lensing. We restrict the analysis to the ratio between CMB lensing and cosmic shear. The resulting $P(R$), for multiple lens-shear pairs, are all nearly Gaussian. The S/N of measured $R$ ranges from $5.3$ to $8.4$. We perform several tests to verify the robustness of the above result.", "revisions": [ { "version": "v1", "updated": "2022-10-25T02:28:58.000Z" } ], "analyses": { "keywords": [ "data sets", "unbiased method", "spectroscopic redshift samples", "desi imaging survey galaxies", "statistical errors" ], "note": { "typesetting": "TeX", "pages": 10, "language": "en", "license": "arXiv", "status": "editable" } } }