Baryon impact on weak lensing peaks and power spectrum: Low-bias statistics and self-calibration in future surveys

Yang X, Kratochvil JM, Huffenberger K, Haiman Z, May M. 2013. Baryon impact on weak lensing peaks and power spectrum: Low-bias statistics and self-calibration in future surveys. Physical Review D. 87(2), 023511.

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Author
Yang, Xiuyuan; Kratochvil, Jan M.; Huffenberger, Kevin; Haiman, ZoltánISTA; May, Morgan
Abstract
Peaks in two-dimensional weak lensing (WL) maps contain significant cosmological information, complementary to the WL power spectrum. This has recently been demonstrated using N-body simulations which neglect baryonic effects. Here we employ ray-tracing N-body simulations in which we manually steepen the density profile of each dark matter halo, mimicking the cooling and concentration of baryons into dark matter potential wells. We find, in agreement with previous works, that this causes a significant increase in the amplitude of the WL power spectrum on small scales (spherical harmonic index l>1,000). We then study the impact of the halo concentration increase on the peak counts, and find the following. (i) Low peaks (with convergence 0.02 < kappa_peak < 0.08), remain nearly unaffected. These peaks are created by a constellation of several halos with low masses (10^12-10^13 M_sun) and large angular offsets from the peak center (> 0.5 R_vir); as a result, they are insensitive to the central halo density profiles. These peaks contain most of the cosmological information, and thus provide an unusually sensitive and unbiased probe. (ii) The number of high peaks (with convergence kappa_peak > 0.08) is increased. However, when the baryon effects are neglected in cosmological parameter estimation, then the high peaks lead to a modest bias, comparable to that from the power spectrum on relatively large-scales (l<2000), and much smaller than the bias from the power spectrum on smaller scales (l>2,000). (iii) In the 3D parameter space (sigma_8, Omega_m, w), the biases from the high peaks and the power spectra are in different directions. This suggests the possibility of "self-calibration": the combination of peak counts and power spectrum can simultaneously constrain baryonic physics and cosmological parameters.
Publishing Year
Date Published
2013-01-14
Journal Title
Physical Review D
Publisher
American Physical Society
Volume
87
Issue
2
Article Number
023511
IST-REx-ID

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Yang X, Kratochvil JM, Huffenberger K, Haiman Z, May M. Baryon impact on weak lensing peaks and power spectrum: Low-bias statistics and self-calibration in future surveys. Physical Review D. 2013;87(2). doi:10.1103/physrevd.87.023511
Yang, X., Kratochvil, J. M., Huffenberger, K., Haiman, Z., & May, M. (2013). Baryon impact on weak lensing peaks and power spectrum: Low-bias statistics and self-calibration in future surveys. Physical Review D. American Physical Society. https://doi.org/10.1103/physrevd.87.023511
Yang, Xiuyuan, Jan M. Kratochvil, Kevin Huffenberger, Zoltán Haiman, and Morgan May. “Baryon Impact on Weak Lensing Peaks and Power Spectrum: Low-Bias Statistics and Self-Calibration in Future Surveys.” Physical Review D. American Physical Society, 2013. https://doi.org/10.1103/physrevd.87.023511.
X. Yang, J. M. Kratochvil, K. Huffenberger, Z. Haiman, and M. May, “Baryon impact on weak lensing peaks and power spectrum: Low-bias statistics and self-calibration in future surveys,” Physical Review D, vol. 87, no. 2. American Physical Society, 2013.
Yang X, Kratochvil JM, Huffenberger K, Haiman Z, May M. 2013. Baryon impact on weak lensing peaks and power spectrum: Low-bias statistics and self-calibration in future surveys. Physical Review D. 87(2), 023511.
Yang, Xiuyuan, et al. “Baryon Impact on Weak Lensing Peaks and Power Spectrum: Low-Bias Statistics and Self-Calibration in Future Surveys.” Physical Review D, vol. 87, no. 2, 023511, American Physical Society, 2013, doi:10.1103/physrevd.87.023511.
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