# A 2500 square-degree CMB lensing map from combined South Pole Telescope   and Planck data

**Authors:** Y. Omori, R. Chown, G. Simard, K. T. Story, K. Aylor, E. J. Baxter, B., A. Benson, L. E. Bleem, J. E. Carlstrom, C. L. Chang, H-M. Cho, T. M., Crawford, A. T. Crites, T. de Haan, M. A. Dobbs, W. B. Everett, E. M. George,, N. W. Halverson, N. L. Harrington, G. P. Holder, Z. Hou, W. L. Holzapfel, J., D. Hrubes, L. Knox, A. T. Lee, E. M. Leitch, D. Luong-Van, A. Manzotti, D. P., Marrone, J. J. McMahon, S. S. Meyer, L. M. Mocanu, J. J. Mohr, T. Natoli, S., Padin, C. Pryke, C. L. Reichardt, J. E. Ruhl, J. T. Sayre, K. K. Schaffer, E., Shirokoff, Z. Staniszewski, A. A. Stark, K. Vanderlinde, J. D. Vieira, R., Williamson, and O. Zahn

arXiv: 1705.00743 · 2017-11-15

## TL;DR

This paper combines South Pole Telescope and Planck data to produce a high-quality CMB lensing map, enabling precise measurements of lensing and cross-correlations with galaxy surveys, advancing cosmological analyses.

## Contribution

It presents a novel combined CMB lensing map from SPT and Planck data with improved noise and coverage, and demonstrates its use in cross-correlation with WISE galaxies.

## Key findings

- Lensing potential auto-spectrum consistent with aCDM predictions.
- Significant detection of lensing at 24 sigma.
- Cross-correlation with WISE galaxies matches theoretical expectations.

## Abstract

We present a cosmic microwave background (CMB) lensing map produced from a linear combination of South Pole Telescope (SPT) and \emph{Planck} temperature data. The 150 GHz temperature data from the $2500\ {\rm deg}^{2}$ SPT-SZ survey is combined with the \emph{Planck} 143 GHz data in harmonic space, to obtain a temperature map that has a broader $\ell$ coverage and less noise than either individual map. Using a quadratic estimator technique on this combined temperature map, we produce a map of the gravitational lensing potential projected along the line of sight. We measure the auto-spectrum of the lensing potential $C_{L}^{\phi\phi}$, and compare it to the theoretical prediction for a $\Lambda$CDM cosmology consistent with the \emph{Planck} 2015 data set, finding a best-fit amplitude of $0.95_{-0.06}^{+0.06}({\rm Stat.})\! _{-0.01}^{+0.01}({\rm Sys.})$. The null hypothesis of no lensing is rejected at a significance of $24\,\sigma$. One important use of such a lensing potential map is in cross-correlations with other dark matter tracers. We demonstrate this cross-correlation in practice by calculating the cross-spectrum, $C_{L}^{\phi G}$, between the SPT+\emph{Planck} lensing map and Wide-field Infrared Survey Explorer (\emph{WISE}) galaxies. We fit $C_{L}^{\phi G}$ to a power law of the form $p_{L}=a(L/L_{0})^{-b}$ with $a=2.15 \times 10^{-8}$, $b=1.35$, $L_{0}=490$, and find $\eta^{\phi G}=0.94^{+0.04}_{-0.04}$, which is marginally lower, but in good agreement with $\eta^{\phi G}=1.00^{+0.02}_{-0.01}$, the best-fit amplitude for the cross-correlation of \emph{Planck}-2015 CMB lensing and \emph{WISE} galaxies over $\sim67\%$ of the sky. The lensing potential map presented here will be used for cross-correlation studies with the Dark Energy Survey (DES), whose footprint nearly completely covers the SPT $2500\ {\rm deg}^2$ field.

## Full text

_Full body text omitted from this summary view._ Fetch the complete paper as Markdown: https://tomesphere.com/paper/1705.00743/full.md

## Figures

13 figures with captions in the complete paper: https://tomesphere.com/paper/1705.00743/full.md

## References

59 references — full list in the complete paper: https://tomesphere.com/paper/1705.00743/full.md

---
Source: https://tomesphere.com/paper/1705.00743