Data analysis and modelling for observations of polarisation of the microwave sky

The cosmic microwave background (CMB) temperature and polarisation anisotropies contain a wealth of cosmological information concerning the formation and evolution of the universe. Upcoming CMB experiments targeting measurements of the B-mode polarisation pattern of the CMB face a major challenge bo...

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Main Author:	Clark, Caroline Natasha
Other Authors:	Contaldi, Carlo, Science and Technology Facilities Council (Great Britain)
Format:	Doctoral or Postdoctoral Thesis
Language:	unknown
Published:	Imperial College London 2013
Subjects:	Austral Antarc* Antarctica
Online Access:	http://hdl.handle.net/10044/1/12800 https://doi.org/10.25560/12800

id	ftimperialcol:oai:spiral.imperial.ac.uk:10044/1/12800
record_format	openpolar
spelling	ftimperialcol:oai:spiral.imperial.ac.uk:10044/1/12800 2023-05-15T14:01:35+02:00 Data analysis and modelling for observations of polarisation of the microwave sky Clark, Caroline Natasha Contaldi, Carlo Science and Technology Facilities Council (Great Britain) 2013-09 http://hdl.handle.net/10044/1/12800 https://doi.org/10.25560/12800 unknown Imperial College London Physics Thesis or dissertation Doctoral Doctor of Philosophy (PhD) 2013 ftimperialcol https://doi.org/10.25560/12800 2019-11-14T23:38:25Z The cosmic microwave background (CMB) temperature and polarisation anisotropies contain a wealth of cosmological information concerning the formation and evolution of the universe. Upcoming CMB experiments targeting measurements of the B-mode polarisation pattern of the CMB face a major challenge both in terms of experimental design and data analysis due to the small amplitude of the signal and the presence of experimental systematic effects and polarised foregrounds. This thesis focuses on aspects of preparation for the Spider experiment. Spider is a balloon-borne polarimeter targeting CMB polarisation, it will launch in the Austral summer of 2013 for a long duration flight from Antarctica. It consists of large arrays of 512 detectors in each receiver, creating a large volume of data that is a challenge to analyse, especially when taking into account noise correlations between detectors. We develop SPIMPI, a mapmaking algorithm for estimating temperature and polarisation maps from Time Ordered Data (TOD). To test the mapmaker, realistic TOD containing signal and noise components are generated from the simulated Spider scan strategy. We use an iterative scheme for solving linear systems (the Preconditioned Conjugate Gradient method) to produce optimal estimates of temperature and polarisation. We present templates of the intensity and polarisation of emission from two of the main polarised Galactic foregrounds, interstellar dust and synchrotron radiation. We present estimates of the level of polarised foregrounds expected, focusing on high galactic latitudes and patches that will be targeted by upcoming experiments. We describe details of a model for the 3D Galactic magnetic field, examining both large and small scales. We include details of the dust and cosmic ray electron density distributions, grain alignment, the intrinsic polarisation of the emission from an individual grain and details of synchrotron emission mechanisms. We compare the templates with WMAP MCMC best-fit templates for these foreground components. Open Access Doctoral or Postdoctoral Thesis Antarc* Antarctica Imperial College London: Spiral Austral
institution	Open Polar
collection	Imperial College London: Spiral
op_collection_id	ftimperialcol
language	unknown
description	The cosmic microwave background (CMB) temperature and polarisation anisotropies contain a wealth of cosmological information concerning the formation and evolution of the universe. Upcoming CMB experiments targeting measurements of the B-mode polarisation pattern of the CMB face a major challenge both in terms of experimental design and data analysis due to the small amplitude of the signal and the presence of experimental systematic effects and polarised foregrounds. This thesis focuses on aspects of preparation for the Spider experiment. Spider is a balloon-borne polarimeter targeting CMB polarisation, it will launch in the Austral summer of 2013 for a long duration flight from Antarctica. It consists of large arrays of 512 detectors in each receiver, creating a large volume of data that is a challenge to analyse, especially when taking into account noise correlations between detectors. We develop SPIMPI, a mapmaking algorithm for estimating temperature and polarisation maps from Time Ordered Data (TOD). To test the mapmaker, realistic TOD containing signal and noise components are generated from the simulated Spider scan strategy. We use an iterative scheme for solving linear systems (the Preconditioned Conjugate Gradient method) to produce optimal estimates of temperature and polarisation. We present templates of the intensity and polarisation of emission from two of the main polarised Galactic foregrounds, interstellar dust and synchrotron radiation. We present estimates of the level of polarised foregrounds expected, focusing on high galactic latitudes and patches that will be targeted by upcoming experiments. We describe details of a model for the 3D Galactic magnetic field, examining both large and small scales. We include details of the dust and cosmic ray electron density distributions, grain alignment, the intrinsic polarisation of the emission from an individual grain and details of synchrotron emission mechanisms. We compare the templates with WMAP MCMC best-fit templates for these foreground components. Open Access
author2	Contaldi, Carlo Science and Technology Facilities Council (Great Britain)
format	Doctoral or Postdoctoral Thesis
author	Clark, Caroline Natasha
spellingShingle	Clark, Caroline Natasha Data analysis and modelling for observations of polarisation of the microwave sky
author_facet	Clark, Caroline Natasha
author_sort	Clark, Caroline Natasha
title	Data analysis and modelling for observations of polarisation of the microwave sky
title_short	Data analysis and modelling for observations of polarisation of the microwave sky
title_full	Data analysis and modelling for observations of polarisation of the microwave sky
title_fullStr	Data analysis and modelling for observations of polarisation of the microwave sky
title_full_unstemmed	Data analysis and modelling for observations of polarisation of the microwave sky
title_sort	data analysis and modelling for observations of polarisation of the microwave sky
publisher	Imperial College London
publishDate	2013
url	http://hdl.handle.net/10044/1/12800 https://doi.org/10.25560/12800
geographic	Austral
geographic_facet	Austral
genre	Antarc* Antarctica
genre_facet	Antarc* Antarctica
op_doi	https://doi.org/10.25560/12800
_version_	1766271513581846528

Data analysis and modelling for observations of polarisation of the microwave sky

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