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Title: The cross-correlation between large scale structure, HI intensity maps and CMB maps
Author: Chen, Tianyue
Awarding Body: University of Manchester
Current Institution: University of Manchester
Date of Award: 2019
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HI intensity mapping is a new and efficient technique for mapping the large-scale-structures in the Universe and its expansion history in three dimensions. Due to the faintness of HI signal, an effective removal of Galactic foregrounds and a careful control of systematics is essential. One way of mitigating systematics is by cross-correlating multiple surveys issued from complementary datasets, which benefits from cancelled systematics, zero-noise-biased cross-spectrum, and complementary mass bias information. The first part of the author's work focuses on the cross-correlation between CMB maps and optical galaxy survey, where the thermal SZ cluster residuals in the Planck 2015 NILC CMB map is detected with ≈ 30σ significance at cluster scale, and overall ≈ 51σ significance including large scales. The percentage of thermal SZ emission left over in the NILC CMB map is quantified to be 44 ± 4%, which, however, is proved to have negligible impact on ISW measurement but can potentially challenge upcoming CMB experiments with higher resolution. In contrast, we provide an alternative CMB map, produced with the 2D-ILC component separation technique, which is shown to be free from thermal SZ contamination. In the second part, the author forecasts the impact of intensity mapping 1/f noise on cosmological parameter constraints through a Fisher matrix analysis. Without 1/f noise, constraints of w0 = -1 ± 0.06, wa = 0 ± 0.13 and HI bias bHI = 1 ± 0.02 are obtained from SKA1-MID Band 2+Planck. A representative 1/f noise model degrades the results by ~ 50%. To mitigate this, one requires a minimised 1/f noise spectral slope, a low knee frequency and a large telescope slew speed. A correlation in fre- quency is also preferred. Finally, forecasts have been made on the cross-correlation between HI intensity maps and the galaxy lensing field. Even with two idealised optimal surveys without any noise and a full-sky coverage, the total detection signal-to-noise ratio and parameter constraints are merely comparable to those obtained from Square Kilometre Array (SKA) auto-correlation with the Planck prior. Therefore, the auto-correlation of intensity maps performs better than cross-correlation with galaxy lensing field, in terms of signal detection and cosmological parameter constraints.
Supervisor: Dickinson, Clive Sponsor: Not available
Qualification Name: Thesis (Ph.D.) Qualification Level: Doctoral
EThOS ID:  DOI: Not available
Keywords: data analysis ; systematics ; large-scale-structure ; cosmology ; cross-correlation