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In-flight polarization angle calibration for LiteBIRD: blind challenge and cosmological implications
We present a demonstration of the in-flight polarization angle calibration for the JAXA/ISAS second strategic large class mission, LiteBIRD, and estimate its impact on the measurement of the tensor-to-scalar ratio parameter, r, using simulated data. We generate a set of simulated sky maps with CMB a...
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| Published in: | arXiv.org 2022-01 |
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| creator | Krachmalnicoff, Nicoletta Matsumura, Tomotake de la Hoz, Elena Basak, Soumen Gruppuso, Alessandro Minami, Yuto Baccigalupi, Carlo Komatsu, Eiichiro Martínez-González, Enrique Vielva, Patricio Aumont, Jonathan Aurlien, Ragnhild Azzoni, Susanna Banday, Anthony J Barreiro, Rita B Bartolo, Nicola Bersanelli, Marco Calabrese, Erminia Carones, Alessandro Casas, Francisco J Cheung, Kolen Chinone, Yuji Columbro, Fabio de Bernardis, Paolo Diego-Palazuelos, Patricia Errard, Josquin Finelli, Fabio Fuskeland, Unni Galloway, Mathew Genova-Santos, Ricardo T Gerbino, Martina Ghigna, Tommaso Giardiello, Serena Gjerløw, Eirik Hazumi, Masashi Henrot-Versillé, Sophie Kisner, Theodore Lamagna, Luca Lattanzi, Massimiliano Levrier, François Luzzi, Gemma Maino, Davide Masi, Silvia Migliaccio, Marina Montier, Ludovic Morgante, Gianluca Mot, Baptiste Nagata, Ryo Nati, Federico Natoli, Paolo Pagano, Luca Paiella, Alessandro Paoletti, Daniela Patanchon, Guillaume Piacentini, Francesco Polenta, Gianluca Poletti, Davide Puglisi, G Remazeilles, Mathieu Rubino-Martin, Jose Alberto Sasaki, Manami Shiraishi, Maresuke Signorelli, Giovanni Stever, Samantha Tartari, Andrea Tristram, Matthieu Tsuji, Masatoshi Vacher, Léo Wehus, Ingunn K Zannoni, Mario the LiteBIRD Collaboration |
| description | We present a demonstration of the in-flight polarization angle calibration for the JAXA/ISAS second strategic large class mission, LiteBIRD, and estimate its impact on the measurement of the tensor-to-scalar ratio parameter, r, using simulated data. We generate a set of simulated sky maps with CMB and polarized foreground emission, and inject instrumental noise and polarization angle offsets to the 22 (partially overlapping) LiteBIRD frequency channels. Our in-flight angle calibration relies on nulling the EB cross correlation of the polarized signal in each channel. This calibration step has been carried out by two independent groups with a blind analysis, allowing an accuracy of the order of a few arc-minutes to be reached on the estimate of the angle offsets. Both the corrected and uncorrected multi-frequency maps are propagated through the foreground cleaning step, with the goal of computing clean CMB maps. We employ two component separation algorithms, the Bayesian-Separation of Components and Residuals Estimate Tool (B-SeCRET), and the Needlet Internal Linear Combination (NILC). We find that the recovered CMB maps obtained with algorithms that do not make any assumptions about the foreground properties, such as NILC, are only mildly affected by the angle miscalibration. However, polarization angle offsets strongly bias results obtained with the parametric fitting method. Once the miscalibration angles are corrected by EB nulling prior to the component separation, both component separation algorithms result in an unbiased estimation of the r parameter. While this work is motivated by the conceptual design study for LiteBIRD, its framework can be broadly applied to any CMB polarization experiment. In particular, the combination of simulation plus blind analysis provides a robust forecast by taking into account not only detector sensitivity but also systematic effects. |
| doi_str_mv | 10.48550/arxiv.2111.09140 |
| format | article |
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We generate a set of simulated sky maps with CMB and polarized foreground emission, and inject instrumental noise and polarization angle offsets to the 22 (partially overlapping) LiteBIRD frequency channels. Our in-flight angle calibration relies on nulling the EB cross correlation of the polarized signal in each channel. This calibration step has been carried out by two independent groups with a blind analysis, allowing an accuracy of the order of a few arc-minutes to be reached on the estimate of the angle offsets. Both the corrected and uncorrected multi-frequency maps are propagated through the foreground cleaning step, with the goal of computing clean CMB maps. We employ two component separation algorithms, the Bayesian-Separation of Components and Residuals Estimate Tool (B-SeCRET), and the Needlet Internal Linear Combination (NILC). We find that the recovered CMB maps obtained with algorithms that do not make any assumptions about the foreground properties, such as NILC, are only mildly affected by the angle miscalibration. However, polarization angle offsets strongly bias results obtained with the parametric fitting method. Once the miscalibration angles are corrected by EB nulling prior to the component separation, both component separation algorithms result in an unbiased estimation of the r parameter. While this work is motivated by the conceptual design study for LiteBIRD, its framework can be broadly applied to any CMB polarization experiment. In particular, the combination of simulation plus blind analysis provides a robust forecast by taking into account not only detector sensitivity but also systematic effects.</description><identifier>EISSN: 2331-8422</identifier><identifier>DOI: 10.48550/arxiv.2111.09140</identifier><language>eng</language><publisher>Ithaca: Cornell University Library, arXiv.org</publisher><subject>Algorithms ; Astronomical maps ; Calibration ; Cleaning ; Cross correlation ; Offsets ; Parameters ; Polarization ; Separation ; Simulation ; Tensors</subject><ispartof>arXiv.org, 2022-01</ispartof><rights>2022. This work is published under http://arxiv.org/licenses/nonexclusive-distrib/1.0/ (the “License”). 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We generate a set of simulated sky maps with CMB and polarized foreground emission, and inject instrumental noise and polarization angle offsets to the 22 (partially overlapping) LiteBIRD frequency channels. Our in-flight angle calibration relies on nulling the EB cross correlation of the polarized signal in each channel. This calibration step has been carried out by two independent groups with a blind analysis, allowing an accuracy of the order of a few arc-minutes to be reached on the estimate of the angle offsets. Both the corrected and uncorrected multi-frequency maps are propagated through the foreground cleaning step, with the goal of computing clean CMB maps. We employ two component separation algorithms, the Bayesian-Separation of Components and Residuals Estimate Tool (B-SeCRET), and the Needlet Internal Linear Combination (NILC). We find that the recovered CMB maps obtained with algorithms that do not make any assumptions about the foreground properties, such as NILC, are only mildly affected by the angle miscalibration. However, polarization angle offsets strongly bias results obtained with the parametric fitting method. Once the miscalibration angles are corrected by EB nulling prior to the component separation, both component separation algorithms result in an unbiased estimation of the r parameter. While this work is motivated by the conceptual design study for LiteBIRD, its framework can be broadly applied to any CMB polarization experiment. In particular, the combination of simulation plus blind analysis provides a robust forecast by taking into account not only detector sensitivity but also systematic effects.</description><subject>Algorithms</subject><subject>Astronomical maps</subject><subject>Calibration</subject><subject>Cleaning</subject><subject>Cross 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Nicoletta ; Matsumura, Tomotake ; de la Hoz, Elena ; Basak, Soumen ; Gruppuso, Alessandro ; Minami, Yuto ; Baccigalupi, Carlo ; Komatsu, Eiichiro ; Martínez-González, Enrique ; Vielva, Patricio ; Aumont, Jonathan ; Aurlien, Ragnhild ; Azzoni, Susanna ; Banday, Anthony J ; Barreiro, Rita B ; Bartolo, Nicola ; Bersanelli, Marco ; Calabrese, Erminia ; Carones, Alessandro ; Casas, Francisco J ; Cheung, Kolen ; Chinone, Yuji ; Columbro, Fabio ; de Bernardis, Paolo ; Diego-Palazuelos, Patricia ; Errard, Josquin ; Finelli, Fabio ; Fuskeland, Unni ; Galloway, Mathew ; Genova-Santos, Ricardo T ; Gerbino, Martina ; Ghigna, Tommaso ; Giardiello, Serena ; Gjerløw, Eirik ; Hazumi, Masashi ; Henrot-Versillé, Sophie ; Kisner, Theodore ; Lamagna, Luca ; Lattanzi, Massimiliano ; Levrier, François ; Luzzi, Gemma ; Maino, Davide ; Masi, Silvia ; Migliaccio, Marina ; Montier, Ludovic ; Morgante, Gianluca ; Mot, Baptiste ; Nagata, Ryo ; Nati, Federico ; Natoli, Paolo ; Pagano, Luca ; Paiella, Alessandro ; Paoletti, Daniela ; Patanchon, Guillaume ; Piacentini, Francesco ; Polenta, Gianluca ; Poletti, Davide ; Puglisi, G ; Remazeilles, Mathieu ; Rubino-Martin, Jose Alberto ; Sasaki, Manami ; Shiraishi, Maresuke ; Signorelli, Giovanni ; Stever, Samantha ; Tartari, Andrea ; Tristram, Matthieu ; Tsuji, Masatoshi ; Vacher, Léo ; Wehus, Ingunn K ; Zannoni, Mario ; the LiteBIRD Collaboration</author></sort><facets><frbrtype>5</frbrtype><frbrgroupid>cdi_FETCH-LOGICAL-a521-c47e341047cc59842a76f8ad96aa90435233c6678457eb4dba04e4ea94a2774d3</frbrgroupid><rsrctype>articles</rsrctype><prefilter>articles</prefilter><language>eng</language><creationdate>2022</creationdate><topic>Algorithms</topic><topic>Astronomical maps</topic><topic>Calibration</topic><topic>Cleaning</topic><topic>Cross 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Francesco</creatorcontrib><creatorcontrib>Polenta, Gianluca</creatorcontrib><creatorcontrib>Poletti, Davide</creatorcontrib><creatorcontrib>Puglisi, G</creatorcontrib><creatorcontrib>Remazeilles, Mathieu</creatorcontrib><creatorcontrib>Rubino-Martin, Jose Alberto</creatorcontrib><creatorcontrib>Sasaki, Manami</creatorcontrib><creatorcontrib>Shiraishi, Maresuke</creatorcontrib><creatorcontrib>Signorelli, Giovanni</creatorcontrib><creatorcontrib>Stever, Samantha</creatorcontrib><creatorcontrib>Tartari, Andrea</creatorcontrib><creatorcontrib>Tristram, Matthieu</creatorcontrib><creatorcontrib>Tsuji, Masatoshi</creatorcontrib><creatorcontrib>Vacher, Léo</creatorcontrib><creatorcontrib>Wehus, Ingunn K</creatorcontrib><creatorcontrib>Zannoni, Mario</creatorcontrib><creatorcontrib>the LiteBIRD Collaboration</creatorcontrib><collection>ProQuest SciTech Collection</collection><collection>ProQuest Technology Collection</collection><collection>Materials Science & Engineering Collection</collection><collection>ProQuest Central (Alumni)</collection><collection>ProQuest Central</collection><collection>ProQuest Central Essentials</collection><collection>ProQuest Central</collection><collection>Technology Collection</collection><collection>ProQuest One Community College</collection><collection>ProQuest Central Korea</collection><collection>SciTech Premium Collection</collection><collection>ProQuest Engineering Collection</collection><collection>Engineering Database</collection><collection>Publicly Available Content (ProQuest)</collection><collection>ProQuest One Academic Eastern Edition (DO NOT USE)</collection><collection>ProQuest One Academic</collection><collection>ProQuest One Academic UKI Edition</collection><collection>ProQuest Central China</collection><collection>Engineering Collection</collection><jtitle>arXiv.org</jtitle></facets><delivery><delcategory>Remote Search Resource</delcategory><fulltext>fulltext</fulltext></delivery><addata><au>Krachmalnicoff, Nicoletta</au><au>Matsumura, Tomotake</au><au>de la Hoz, Elena</au><au>Basak, Soumen</au><au>Gruppuso, Alessandro</au><au>Minami, Yuto</au><au>Baccigalupi, Carlo</au><au>Komatsu, Eiichiro</au><au>Martínez-González, Enrique</au><au>Vielva, Patricio</au><au>Aumont, Jonathan</au><au>Aurlien, Ragnhild</au><au>Azzoni, Susanna</au><au>Banday, Anthony J</au><au>Barreiro, Rita B</au><au>Bartolo, Nicola</au><au>Bersanelli, Marco</au><au>Calabrese, Erminia</au><au>Carones, Alessandro</au><au>Casas, Francisco J</au><au>Cheung, Kolen</au><au>Chinone, Yuji</au><au>Columbro, Fabio</au><au>de Bernardis, Paolo</au><au>Diego-Palazuelos, Patricia</au><au>Errard, Josquin</au><au>Finelli, Fabio</au><au>Fuskeland, Unni</au><au>Galloway, Mathew</au><au>Genova-Santos, Ricardo T</au><au>Gerbino, Martina</au><au>Ghigna, Tommaso</au><au>Giardiello, Serena</au><au>Gjerløw, Eirik</au><au>Hazumi, Masashi</au><au>Henrot-Versillé, Sophie</au><au>Kisner, Theodore</au><au>Lamagna, Luca</au><au>Lattanzi, Massimiliano</au><au>Levrier, François</au><au>Luzzi, Gemma</au><au>Maino, Davide</au><au>Masi, Silvia</au><au>Migliaccio, Marina</au><au>Montier, Ludovic</au><au>Morgante, Gianluca</au><au>Mot, Baptiste</au><au>Nagata, Ryo</au><au>Nati, Federico</au><au>Natoli, Paolo</au><au>Pagano, Luca</au><au>Paiella, Alessandro</au><au>Paoletti, Daniela</au><au>Patanchon, Guillaume</au><au>Piacentini, Francesco</au><au>Polenta, Gianluca</au><au>Poletti, Davide</au><au>Puglisi, G</au><au>Remazeilles, Mathieu</au><au>Rubino-Martin, Jose Alberto</au><au>Sasaki, Manami</au><au>Shiraishi, Maresuke</au><au>Signorelli, Giovanni</au><au>Stever, Samantha</au><au>Tartari, Andrea</au><au>Tristram, Matthieu</au><au>Tsuji, Masatoshi</au><au>Vacher, Léo</au><au>Wehus, Ingunn K</au><au>Zannoni, Mario</au><au>the LiteBIRD Collaboration</au><format>journal</format><genre>article</genre><ristype>JOUR</ristype><atitle>In-flight polarization angle calibration for LiteBIRD: blind challenge and cosmological implications</atitle><jtitle>arXiv.org</jtitle><date>2022-01-21</date><risdate>2022</risdate><eissn>2331-8422</eissn><abstract>We present a demonstration of the in-flight polarization angle calibration for the JAXA/ISAS second strategic large class mission, LiteBIRD, and estimate its impact on the measurement of the tensor-to-scalar ratio parameter, r, using simulated data. We generate a set of simulated sky maps with CMB and polarized foreground emission, and inject instrumental noise and polarization angle offsets to the 22 (partially overlapping) LiteBIRD frequency channels. Our in-flight angle calibration relies on nulling the EB cross correlation of the polarized signal in each channel. This calibration step has been carried out by two independent groups with a blind analysis, allowing an accuracy of the order of a few arc-minutes to be reached on the estimate of the angle offsets. Both the corrected and uncorrected multi-frequency maps are propagated through the foreground cleaning step, with the goal of computing clean CMB maps. We employ two component separation algorithms, the Bayesian-Separation of Components and Residuals Estimate Tool (B-SeCRET), and the Needlet Internal Linear Combination (NILC). We find that the recovered CMB maps obtained with algorithms that do not make any assumptions about the foreground properties, such as NILC, are only mildly affected by the angle miscalibration. However, polarization angle offsets strongly bias results obtained with the parametric fitting method. Once the miscalibration angles are corrected by EB nulling prior to the component separation, both component separation algorithms result in an unbiased estimation of the r parameter. While this work is motivated by the conceptual design study for LiteBIRD, its framework can be broadly applied to any CMB polarization experiment. In particular, the combination of simulation plus blind analysis provides a robust forecast by taking into account not only detector sensitivity but also systematic effects.</abstract><cop>Ithaca</cop><pub>Cornell University Library, arXiv.org</pub><doi>10.48550/arxiv.2111.09140</doi><oa>free_for_read</oa></addata></record> |
| fulltext | fulltext |
| identifier | EISSN: 2331-8422 |
| ispartof | arXiv.org, 2022-01 |
| issn | 2331-8422 |
| language | eng |
| recordid | cdi_proquest_journals_2598840331 |
| source | Publicly Available Content (ProQuest) |
| subjects | Algorithms Astronomical maps Calibration Cleaning Cross correlation Offsets Parameters Polarization Separation Simulation Tensors |
| title | In-flight polarization angle calibration for LiteBIRD: blind challenge and cosmological implications |
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