In-flight polarization angle calibration for LiteBIRD: blind challenge   and cosmological implications

Nicoletta Krachmalnicoff; Tomotake Matsumura; Elena de la Hoz; Soumen; Basak; Alessandro Gruppuso; Yuto Minami; Carlo Baccigalupi; Eiichiro Komatsu,; Enrique Mart\'inez-Gonz\'alez; Patricio Vielva; Jonathan Aumont; Ragnhild; Aurlien; Susanna Azzoni; Anthony J. Banday; Rita B. Barreiro; Nicola Bartolo,; Marco Bersanelli; Erminia Calabrese; Alessandro Carones; Francisco J. Casas,; Kolen Cheung; Yuji Chinone; Fabio Columbro; Paolo de Bernardis; Patricia; Diego-Palazuelos; Josquin Errard; Fabio Finelli; Unni Fuskeland; Mathew; Galloway; Ricardo T. Genova-Santos; Martina Gerbino; Tommaso Ghigna; Serena; Giardiello; Eirik Gjerl{\o}w; Masashi Hazumi; Sophie Henrot-Versill\'e,; Theodore Kisner; Luca Lamagna; Massimiliano Lattanzi; Fran\c{c}ois Levrier,; Gemma Luzzi; Davide Maino; Silvia Masi; Marina Migliaccio; Ludovic Montier,; Gianluca Morgante; Baptiste Mot; Ryo Nagata; Federico Nati; Paolo Natoli,; Luca Pagano; Alessandro Paiella; Daniela Paoletti; Guillaume Patanchon,; Francesco Piacentini; Gianluca Polenta; Davide Poletti; G. Puglisi; Mathieu; Remazeilles; Jose Alberto Rubino-Martin; Manami Sasaki; Maresuke Shiraishi,; Giovanni Signorelli; Samantha Stever; Andrea Tartari; Matthieu Tristram,; Masatoshi Tsuji; L\'eo Vacher; Ingunn K. Wehus; Mario Zannoni (for the; LiteBIRD Collaboration)

arXiv:2111.09140·astro-ph.CO·February 2, 2022

In-flight polarization angle calibration for LiteBIRD: blind challenge and cosmological implications

Nicoletta Krachmalnicoff, Tomotake Matsumura, Elena de la Hoz, Soumen, Basak, Alessandro Gruppuso, Yuto Minami, Carlo Baccigalupi, Eiichiro Komatsu,, Enrique Mart\'inez-Gonz\'alez, Patricio Vielva, Jonathan Aumont, Ragnhild, Aurlien, Susanna Azzoni, Anthony J. Banday

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TL;DR

This paper demonstrates an in-flight polarization angle calibration method for LiteBIRD, showing it effectively reduces bias in measuring the tensor-to-scalar ratio r, with implications for future CMB polarization experiments.

Contribution

It introduces a blind, in-flight polarization angle calibration technique for LiteBIRD that improves the accuracy of r measurement by correcting systematic biases.

Findings

01

Calibration achieves a few arc-minutes accuracy.

02

Uncorrected angle offsets bias parametric component separation results.

03

Correcting angles prior to component separation yields unbiased r estimates.

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…

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Taxonomy

TopicsGalaxies: Formation, Evolution, Phenomena · Cosmology and Gravitation Theories · Radio Astronomy Observations and Technology