Y. Takasefor the LiteBIRD Collaboration, L. Vacherfor the LiteBIRD Collaboration, H. Ishinofor the LiteBIRD Collaboration, G. Patanchonfor the LiteBIRD Collaboration, L. Montierfor the LiteBIRD Collaboration, S. L. Steverfor the LiteBIRD Collaboration, K. Ishizakafor the LiteBIRD Collaboration, Y. Naganofor the LiteBIRD Collaboration, W. Wangfor the LiteBIRD Collaboration, J. Aumontfor the LiteBIRD Collaboration, K. Aizawafor the LiteBIRD Collaboration, A. Anandfor the LiteBIRD Collaboration, C. Baccigalupifor the LiteBIRD Collaboration, M. Ballardinifor the LiteBIRD Collaboration, A. J. Bandayfor the LiteBIRD Collaboration, R. B. Barreirofor the LiteBIRD Collaboration, N. Bartolofor the LiteBIRD Collaboration, S. Basakfor the LiteBIRD Collaboration, M. Bersanellifor the LiteBIRD Collaboration, M. Bortolamifor the LiteBIRD Collaboration, T. Brinckmannfor the LiteBIRD Collaboration, E. Calabresefor the LiteBIRD Collaboration, P. Campetifor the LiteBIRD Collaboration, E. Carinosfor the LiteBIRD Collaboration, A. Caronesfor the LiteBIRD Collaboration, F. J. Casasfor the LiteBIRD Collaboration, K. Cheungfor the LiteBIRD Collaboration, L. Clermontfor the LiteBIRD Collaboration, F. Columbrofor the LiteBIRD Collaboration, A. Coppolecchiafor the LiteBIRD Collaboration, F. Cuttaiafor the LiteBIRD Collaboration, P. de Bernardisfor the LiteBIRD Collaboration, T. de Haanfor the LiteBIRD Collaboration, E. de la Hozfor the LiteBIRD Collaboration, S. Della Torrefor the LiteBIRD Collaboration, P. Diego-Palazuelosfor the LiteBIRD Collaboration, G. D'Alessandrofor the LiteBIRD Collaboration, H. K. Eriksenfor the LiteBIRD Collaboration, J. Errardfor the LiteBIRD Collaboration, F. Finellifor the LiteBIRD Collaboration, U. Fuskelandfor the LiteBIRD Collaboration, G. Gallonifor the LiteBIRD Collaboration, M. Gallowayfor the LiteBIRD Collaboration, M. Gervasifor the LiteBIRD Collaboration, T. Ghignafor the LiteBIRD Collaboration, S. Giardiellofor the LiteBIRD Collaboration, C. Gimeno-Amofor the LiteBIRD Collaboration, E. Gjerløwfor the LiteBIRD Collaboration, R. González Gonzálezfor the LiteBIRD Collaboration, A. Gruppusofor the LiteBIRD Collaboration, M. Hazumifor the LiteBIRD Collaboration, S. Henrot-Versilléfor the LiteBIRD Collaboration, L. T. Hergtfor the LiteBIRD Collaboration, K. Ikumafor the LiteBIRD Collaboration, K. Kohrifor the LiteBIRD Collaboration, L. Lamagnafor the LiteBIRD Collaboration, M. Lattanzifor the LiteBIRD Collaboration, C. Leloupfor the LiteBIRD Collaboration, M. Lembofor the LiteBIRD Collaboration, F. Levrierfor the LiteBIRD Collaboration, A. I. Lonappanfor the LiteBIRD Collaboration, M. López-Caniegofor the LiteBIRD Collaboration, G. Luzzifor the LiteBIRD Collaboration, B. Maffeifor the LiteBIRD Collaboration, E. Martínez-Gonzálezfor the LiteBIRD Collaboration, S. Masifor the LiteBIRD Collaboration, S. Matarresefor the LiteBIRD Collaboration, F. T. Matsudafor the LiteBIRD Collaboration, T. Matsumurafor the LiteBIRD Collaboration, S. Michelifor the LiteBIRD Collaboration, M. Migliacciofor the LiteBIRD Collaboration, M. Monellifor the LiteBIRD Collaboration, G. Morgantefor the LiteBIRD Collaboration, B. Motfor the LiteBIRD Collaboration, R. Nagatafor the LiteBIRD Collaboration, T. Namikawafor the LiteBIRD Collaboration, A. Novellifor the LiteBIRD Collaboration, K. Odagirifor the LiteBIRD Collaboration, S. Ogurifor the LiteBIRD Collaboration, R. Omaefor the LiteBIRD Collaboration, L. Paganofor the LiteBIRD Collaboration, D. Paolettifor the LiteBIRD Collaboration, F. Piacentinifor the LiteBIRD Collaboration, M. Pincherafor the LiteBIRD Collaboration, G. Polentafor the LiteBIRD Collaboration, L. Porcellifor the LiteBIRD Collaboration, N. Raffuzzifor the LiteBIRD Collaboration, M. Remazeillesfor the LiteBIRD Collaboration, A. Ritaccofor the LiteBIRD Collaboration, M. Ruiz-Grandafor the LiteBIRD Collaboration, Y. Sakuraifor the LiteBIRD Collaboration, D. Scottfor the LiteBIRD Collaboration, Y. Sekimotofor the LiteBIRD Collaboration, M. Shiraishifor the LiteBIRD Collaboration, G. Signorellifor the LiteBIRD Collaboration, R. M. Sullivanfor the LiteBIRD Collaboration, H. Takakurafor the LiteBIRD Collaboration, L. Terenzifor the LiteBIRD Collaboration, M. Tomasifor the LiteBIRD Collaboration, M. Tristramfor the LiteBIRD Collaboration, B. van Tentfor the LiteBIRD Collaboration, P. Vielvafor the LiteBIRD Collaboration, I. K. Wehusfor the LiteBIRD Collaboration, B. Westbrookfor the LiteBIRD Collaboration, G. Weymann-Despresfor the LiteBIRD Collaboration, E. J. Wollackfor the LiteBIRD Collaboration, M. Zannonifor the LiteBIRD Collaboration, Y. Zhoufor the LiteBIRD Collaboration
{"title":"多维优化 LiteBIRD 空间任务的扫描策略","authors":"Y. Takasefor the LiteBIRD Collaboration, L. Vacherfor the LiteBIRD Collaboration, H. Ishinofor the LiteBIRD Collaboration, G. Patanchonfor the LiteBIRD Collaboration, L. Montierfor the LiteBIRD Collaboration, S. L. Steverfor the LiteBIRD Collaboration, K. Ishizakafor the LiteBIRD Collaboration, Y. Naganofor the LiteBIRD Collaboration, W. Wangfor the LiteBIRD Collaboration, J. Aumontfor the LiteBIRD Collaboration, K. Aizawafor the LiteBIRD Collaboration, A. Anandfor the LiteBIRD Collaboration, C. Baccigalupifor the LiteBIRD Collaboration, M. Ballardinifor the LiteBIRD Collaboration, A. J. Bandayfor the LiteBIRD Collaboration, R. B. Barreirofor the LiteBIRD Collaboration, N. Bartolofor the LiteBIRD Collaboration, S. Basakfor the LiteBIRD Collaboration, M. Bersanellifor the LiteBIRD Collaboration, M. Bortolamifor the LiteBIRD Collaboration, T. Brinckmannfor the LiteBIRD Collaboration, E. Calabresefor the LiteBIRD Collaboration, P. Campetifor the LiteBIRD Collaboration, E. Carinosfor the LiteBIRD Collaboration, A. Caronesfor the LiteBIRD Collaboration, F. J. Casasfor the LiteBIRD Collaboration, K. Cheungfor the LiteBIRD Collaboration, L. Clermontfor the LiteBIRD Collaboration, F. Columbrofor the LiteBIRD Collaboration, A. Coppolecchiafor the LiteBIRD Collaboration, F. Cuttaiafor the LiteBIRD Collaboration, P. de Bernardisfor the LiteBIRD Collaboration, T. de Haanfor the LiteBIRD Collaboration, E. de la Hozfor the LiteBIRD Collaboration, S. Della Torrefor the LiteBIRD Collaboration, P. Diego-Palazuelosfor the LiteBIRD Collaboration, G. D'Alessandrofor the LiteBIRD Collaboration, H. K. Eriksenfor the LiteBIRD Collaboration, J. Errardfor the LiteBIRD Collaboration, F. Finellifor the LiteBIRD Collaboration, U. Fuskelandfor the LiteBIRD Collaboration, G. Gallonifor the LiteBIRD Collaboration, M. Gallowayfor the LiteBIRD Collaboration, M. Gervasifor the LiteBIRD Collaboration, T. Ghignafor the LiteBIRD Collaboration, S. Giardiellofor the LiteBIRD Collaboration, C. Gimeno-Amofor the LiteBIRD Collaboration, E. Gjerløwfor the LiteBIRD Collaboration, R. González Gonzálezfor the LiteBIRD Collaboration, A. Gruppusofor the LiteBIRD Collaboration, M. Hazumifor the LiteBIRD Collaboration, S. Henrot-Versilléfor the LiteBIRD Collaboration, L. T. Hergtfor the LiteBIRD Collaboration, K. Ikumafor the LiteBIRD Collaboration, K. Kohrifor the LiteBIRD Collaboration, L. Lamagnafor the LiteBIRD Collaboration, M. Lattanzifor the LiteBIRD Collaboration, C. Leloupfor the LiteBIRD Collaboration, M. Lembofor the LiteBIRD Collaboration, F. Levrierfor the LiteBIRD Collaboration, A. I. Lonappanfor the LiteBIRD Collaboration, M. López-Caniegofor the LiteBIRD Collaboration, G. Luzzifor the LiteBIRD Collaboration, B. Maffeifor the LiteBIRD Collaboration, E. Martínez-Gonzálezfor the LiteBIRD Collaboration, S. Masifor the LiteBIRD Collaboration, S. Matarresefor the LiteBIRD Collaboration, F. T. Matsudafor the LiteBIRD Collaboration, T. Matsumurafor the LiteBIRD Collaboration, S. Michelifor the LiteBIRD Collaboration, M. Migliacciofor the LiteBIRD Collaboration, M. Monellifor the LiteBIRD Collaboration, G. Morgantefor the LiteBIRD Collaboration, B. Motfor the LiteBIRD Collaboration, R. Nagatafor the LiteBIRD Collaboration, T. Namikawafor the LiteBIRD Collaboration, A. Novellifor the LiteBIRD Collaboration, K. Odagirifor the LiteBIRD Collaboration, S. Ogurifor the LiteBIRD Collaboration, R. Omaefor the LiteBIRD Collaboration, L. Paganofor the LiteBIRD Collaboration, D. Paolettifor the LiteBIRD Collaboration, F. Piacentinifor the LiteBIRD Collaboration, M. Pincherafor the LiteBIRD Collaboration, G. Polentafor the LiteBIRD Collaboration, L. Porcellifor the LiteBIRD Collaboration, N. Raffuzzifor the LiteBIRD Collaboration, M. Remazeillesfor the LiteBIRD Collaboration, A. Ritaccofor the LiteBIRD Collaboration, M. Ruiz-Grandafor the LiteBIRD Collaboration, Y. Sakuraifor the LiteBIRD Collaboration, D. Scottfor the LiteBIRD Collaboration, Y. Sekimotofor the LiteBIRD Collaboration, M. Shiraishifor the LiteBIRD Collaboration, G. Signorellifor the LiteBIRD Collaboration, R. M. Sullivanfor the LiteBIRD Collaboration, H. Takakurafor the LiteBIRD Collaboration, L. Terenzifor the LiteBIRD Collaboration, M. Tomasifor the LiteBIRD Collaboration, M. Tristramfor the LiteBIRD Collaboration, B. van Tentfor the LiteBIRD Collaboration, P. Vielvafor the LiteBIRD Collaboration, I. K. Wehusfor the LiteBIRD Collaboration, B. Westbrookfor the LiteBIRD Collaboration, G. Weymann-Despresfor the LiteBIRD Collaboration, E. J. Wollackfor the LiteBIRD Collaboration, M. Zannonifor the LiteBIRD Collaboration, Y. Zhoufor the LiteBIRD Collaboration","doi":"arxiv-2408.03040","DOIUrl":null,"url":null,"abstract":"Large angular scale surveys in the absence of atmosphere are essential for\nmeasuring the primordial $B$-mode power spectrum of the Cosmic Microwave\nBackground (CMB). Since this proposed measurement is about three to four orders\nof magnitude fainter than the temperature anisotropies of the CMB, in-flight\ncalibration of the instruments and active suppression of systematic effects are\ncrucial. We investigate the effect of changing the parameters of the scanning\nstrategy on the in-flight calibration effectiveness, the suppression of the\nsystematic effects themselves, and the ability to distinguish systematic\neffects by null-tests. Next-generation missions such as LiteBIRD, modulated by\na Half-Wave Plate (HWP), will be able to observe polarisation using a single\ndetector, eliminating the need to combine several detectors to measure\npolarisation, as done in many previous experiments and hence avoiding the\nconsequent systematic effects. While the HWP is expected to suppress many\nsystematic effects, some of them will remain. We use an analytical approach to\ncomprehensively address the mitigation of these systematic effects and identify\nthe characteristics of scanning strategies that are the most effective for\nimplementing a variety of calibration strategies in the multi-dimensional space\nof common spacecraft scan parameters. We also present Falcons, a fast\nspacecraft scanning simulator that we developed to investigate this scanning\nparameter space.","PeriodicalId":501163,"journal":{"name":"arXiv - PHYS - Instrumentation and Methods for Astrophysics","volume":"21 1","pages":""},"PeriodicalIF":0.0000,"publicationDate":"2024-08-06","publicationTypes":"Journal Article","fieldsOfStudy":null,"isOpenAccess":false,"openAccessPdf":"","citationCount":"0","resultStr":"{\"title\":\"Multi-dimensional optimisation of the scanning strategy for the LiteBIRD space mission\",\"authors\":\"Y. Takasefor the LiteBIRD Collaboration, L. Vacherfor the LiteBIRD Collaboration, H. Ishinofor the LiteBIRD Collaboration, G. Patanchonfor the LiteBIRD Collaboration, L. Montierfor the LiteBIRD Collaboration, S. L. Steverfor the LiteBIRD Collaboration, K. Ishizakafor the LiteBIRD Collaboration, Y. Naganofor the LiteBIRD Collaboration, W. Wangfor the LiteBIRD Collaboration, J. Aumontfor the LiteBIRD Collaboration, K. Aizawafor the LiteBIRD Collaboration, A. Anandfor the LiteBIRD Collaboration, C. Baccigalupifor the LiteBIRD Collaboration, M. Ballardinifor the LiteBIRD Collaboration, A. J. Bandayfor the LiteBIRD Collaboration, R. B. Barreirofor the LiteBIRD Collaboration, N. Bartolofor the LiteBIRD Collaboration, S. Basakfor the LiteBIRD Collaboration, M. Bersanellifor the LiteBIRD Collaboration, M. Bortolamifor the LiteBIRD Collaboration, T. Brinckmannfor the LiteBIRD Collaboration, E. Calabresefor the LiteBIRD Collaboration, P. Campetifor the LiteBIRD Collaboration, E. Carinosfor the LiteBIRD Collaboration, A. Caronesfor the LiteBIRD Collaboration, F. J. Casasfor the LiteBIRD Collaboration, K. Cheungfor the LiteBIRD Collaboration, L. Clermontfor the LiteBIRD Collaboration, F. Columbrofor the LiteBIRD Collaboration, A. Coppolecchiafor the LiteBIRD Collaboration, F. Cuttaiafor the LiteBIRD Collaboration, P. de Bernardisfor the LiteBIRD Collaboration, T. de Haanfor the LiteBIRD Collaboration, E. de la Hozfor the LiteBIRD Collaboration, S. Della Torrefor the LiteBIRD Collaboration, P. Diego-Palazuelosfor the LiteBIRD Collaboration, G. D'Alessandrofor the LiteBIRD Collaboration, H. K. Eriksenfor the LiteBIRD Collaboration, J. Errardfor the LiteBIRD Collaboration, F. Finellifor the LiteBIRD Collaboration, U. Fuskelandfor the LiteBIRD Collaboration, G. Gallonifor the LiteBIRD Collaboration, M. Gallowayfor the LiteBIRD Collaboration, M. Gervasifor the LiteBIRD Collaboration, T. Ghignafor the LiteBIRD Collaboration, S. Giardiellofor the LiteBIRD Collaboration, C. Gimeno-Amofor the LiteBIRD Collaboration, E. Gjerløwfor the LiteBIRD Collaboration, R. González Gonzálezfor the LiteBIRD Collaboration, A. Gruppusofor the LiteBIRD Collaboration, M. Hazumifor the LiteBIRD Collaboration, S. Henrot-Versilléfor the LiteBIRD Collaboration, L. T. Hergtfor the LiteBIRD Collaboration, K. Ikumafor the LiteBIRD Collaboration, K. Kohrifor the LiteBIRD Collaboration, L. Lamagnafor the LiteBIRD Collaboration, M. Lattanzifor the LiteBIRD Collaboration, C. Leloupfor the LiteBIRD Collaboration, M. Lembofor the LiteBIRD Collaboration, F. Levrierfor the LiteBIRD Collaboration, A. I. Lonappanfor the LiteBIRD Collaboration, M. López-Caniegofor the LiteBIRD Collaboration, G. Luzzifor the LiteBIRD Collaboration, B. Maffeifor the LiteBIRD Collaboration, E. Martínez-Gonzálezfor the LiteBIRD Collaboration, S. Masifor the LiteBIRD Collaboration, S. Matarresefor the LiteBIRD Collaboration, F. T. Matsudafor the LiteBIRD Collaboration, T. Matsumurafor the LiteBIRD Collaboration, S. Michelifor the LiteBIRD Collaboration, M. Migliacciofor the LiteBIRD Collaboration, M. Monellifor the LiteBIRD Collaboration, G. Morgantefor the LiteBIRD Collaboration, B. Motfor the LiteBIRD Collaboration, R. Nagatafor the LiteBIRD Collaboration, T. Namikawafor the LiteBIRD Collaboration, A. Novellifor the LiteBIRD Collaboration, K. Odagirifor the LiteBIRD Collaboration, S. Ogurifor the LiteBIRD Collaboration, R. Omaefor the LiteBIRD Collaboration, L. Paganofor the LiteBIRD Collaboration, D. Paolettifor the LiteBIRD Collaboration, F. Piacentinifor the LiteBIRD Collaboration, M. Pincherafor the LiteBIRD Collaboration, G. Polentafor the LiteBIRD Collaboration, L. Porcellifor the LiteBIRD Collaboration, N. Raffuzzifor the LiteBIRD Collaboration, M. Remazeillesfor the LiteBIRD Collaboration, A. Ritaccofor the LiteBIRD Collaboration, M. Ruiz-Grandafor the LiteBIRD Collaboration, Y. Sakuraifor the LiteBIRD Collaboration, D. Scottfor the LiteBIRD Collaboration, Y. Sekimotofor the LiteBIRD Collaboration, M. Shiraishifor the LiteBIRD Collaboration, G. Signorellifor the LiteBIRD Collaboration, R. M. Sullivanfor the LiteBIRD Collaboration, H. Takakurafor the LiteBIRD Collaboration, L. Terenzifor the LiteBIRD Collaboration, M. Tomasifor the LiteBIRD Collaboration, M. Tristramfor the LiteBIRD Collaboration, B. van Tentfor the LiteBIRD Collaboration, P. Vielvafor the LiteBIRD Collaboration, I. K. Wehusfor the LiteBIRD Collaboration, B. Westbrookfor the LiteBIRD Collaboration, G. Weymann-Despresfor the LiteBIRD Collaboration, E. J. Wollackfor the LiteBIRD Collaboration, M. Zannonifor the LiteBIRD Collaboration, Y. Zhoufor the LiteBIRD Collaboration\",\"doi\":\"arxiv-2408.03040\",\"DOIUrl\":null,\"url\":null,\"abstract\":\"Large angular scale surveys in the absence of atmosphere are essential for\\nmeasuring the primordial $B$-mode power spectrum of the Cosmic Microwave\\nBackground (CMB). Since this proposed measurement is about three to four orders\\nof magnitude fainter than the temperature anisotropies of the CMB, in-flight\\ncalibration of the instruments and active suppression of systematic effects are\\ncrucial. We investigate the effect of changing the parameters of the scanning\\nstrategy on the in-flight calibration effectiveness, the suppression of the\\nsystematic effects themselves, and the ability to distinguish systematic\\neffects by null-tests. Next-generation missions such as LiteBIRD, modulated by\\na Half-Wave Plate (HWP), will be able to observe polarisation using a single\\ndetector, eliminating the need to combine several detectors to measure\\npolarisation, as done in many previous experiments and hence avoiding the\\nconsequent systematic effects. While the HWP is expected to suppress many\\nsystematic effects, some of them will remain. We use an analytical approach to\\ncomprehensively address the mitigation of these systematic effects and identify\\nthe characteristics of scanning strategies that are the most effective for\\nimplementing a variety of calibration strategies in the multi-dimensional space\\nof common spacecraft scan parameters. We also present Falcons, a fast\\nspacecraft scanning simulator that we developed to investigate this scanning\\nparameter space.\",\"PeriodicalId\":501163,\"journal\":{\"name\":\"arXiv - PHYS - Instrumentation and Methods for Astrophysics\",\"volume\":\"21 1\",\"pages\":\"\"},\"PeriodicalIF\":0.0000,\"publicationDate\":\"2024-08-06\",\"publicationTypes\":\"Journal Article\",\"fieldsOfStudy\":null,\"isOpenAccess\":false,\"openAccessPdf\":\"\",\"citationCount\":\"0\",\"resultStr\":null,\"platform\":\"Semanticscholar\",\"paperid\":null,\"PeriodicalName\":\"arXiv - PHYS - Instrumentation and Methods for Astrophysics\",\"FirstCategoryId\":\"1085\",\"ListUrlMain\":\"https://doi.org/arxiv-2408.03040\",\"RegionNum\":0,\"RegionCategory\":null,\"ArticlePicture\":[],\"TitleCN\":null,\"AbstractTextCN\":null,\"PMCID\":null,\"EPubDate\":\"\",\"PubModel\":\"\",\"JCR\":\"\",\"JCRName\":\"\",\"Score\":null,\"Total\":0}","platform":"Semanticscholar","paperid":null,"PeriodicalName":"arXiv - PHYS - Instrumentation and Methods for Astrophysics","FirstCategoryId":"1085","ListUrlMain":"https://doi.org/arxiv-2408.03040","RegionNum":0,"RegionCategory":null,"ArticlePicture":[],"TitleCN":null,"AbstractTextCN":null,"PMCID":null,"EPubDate":"","PubModel":"","JCR":"","JCRName":"","Score":null,"Total":0}
Multi-dimensional optimisation of the scanning strategy for the LiteBIRD space mission
Large angular scale surveys in the absence of atmosphere are essential for
measuring the primordial $B$-mode power spectrum of the Cosmic Microwave
Background (CMB). Since this proposed measurement is about three to four orders
of magnitude fainter than the temperature anisotropies of the CMB, in-flight
calibration of the instruments and active suppression of systematic effects are
crucial. We investigate the effect of changing the parameters of the scanning
strategy on the in-flight calibration effectiveness, the suppression of the
systematic effects themselves, and the ability to distinguish systematic
effects by null-tests. Next-generation missions such as LiteBIRD, modulated by
a Half-Wave Plate (HWP), will be able to observe polarisation using a single
detector, eliminating the need to combine several detectors to measure
polarisation, as done in many previous experiments and hence avoiding the
consequent systematic effects. While the HWP is expected to suppress many
systematic effects, some of them will remain. We use an analytical approach to
comprehensively address the mitigation of these systematic effects and identify
the characteristics of scanning strategies that are the most effective for
implementing a variety of calibration strategies in the multi-dimensional space
of common spacecraft scan parameters. We also present Falcons, a fast
spacecraft scanning simulator that we developed to investigate this scanning
parameter space.
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