Planck intermediate results. LVI. Detection of the CMB dipole through modulation of the thermal Sunyaev-Zeldovich effect: Eppur si muove II

Yashar Akrami,M. Ashdown,C. Baccigalupi,Mario Ballardini,A. J. Banday,R. B. Barreiro,Nicola Bartolo,S. Basak,K. Benabed,J.-P. Bernard,Marco Bersanelli,P. Bielewicz,J. R. Bond,J. Borrill,Carlo Burigana,Erminia Calabrese,Jean-François Cardoso,B. Casaponsa,H. C. Chiang,C. Combet,D. Contreras,B. P. Crill,F. Cuttaia,P. de Bernardis,A. De Rosa,G. De Zotti,J. Delabrouille,E. Di Valentino,Jose M. Diego,O. Doré,M. Douspis,X. Dupac,Torsten A. EnBlin,H. K. Eriksen,R. Fernandez-Cobos,Fabio Finelli,M. Frailis,E. Franceschi,Andrei V. Frolov,S. Galeotta,S. Galli,K. Ganga,R. T. Génova-Santos,Martina Gerbino,J. González-Nuevo,K. M. Górski,A. Gruppuso,J. E. Gudmundsson,Will Handley,Diego Herranz,E. Hivon,Zhiqi Huang,Andrew H. Jaffe,W. C. Jones,E. Keihänen,R. Keskitalo,K. Kiiveri,Jae Young Kim,T. S. Kisner,N. Krachmalnicoff,Martin Kunz,Hannu Kurki-Suonio,J-M. Lamarre,Massimiliano Lattanzi,C. R. Lawrence,M. Le Jeune,François Levrier,M. Liguori,P. B. Lilje,V. Lindholm,M. López-Caniego,J.F. Macias Perez,Davide Maino,N. Mandolesi,A. Marcos-Caballero,M. Maris,Pierrick Martin,E. Martínez-González,S. Matarrese,N. Mauri,Jason D. McEwen,A. Mennella,M. Migliaccio,D. Molinari,A. Moneti,L. Montier,Gianluca Morgante,A. Moss,P. Natoli,Luca Pagano,Daniela Paoletti,F. Perrotta,V. Pettorino,F. Piacentini,G. Polenta,J. P. Rachen,Martin Reinecke,Mathieu Remazeilles,A. Renzi,G. Rocha,C. Rosset,José Alberto Rubiño-Martin,B. Ruiz-Granados,L. Salvati,M. Savelainen,D Scott,C. Sirignano,G. Sirri,Locke D. Spencer,R.M. Sullivan,Rashid Sunyaev,A.-S. Suur-Uski,J. A. Tauber,D. Tavagnacco,M. Tenti,L. Toffolatti,M. Tomasi,T. Trombetti,Jussi Valiviita,B. Van Tent,P. Vielva,F. Villa,Nicola Vittorio,Ingunn Kathrine Wehus,Andrea Zacchei,Andrea Zonca

Planck intermediate results. LVI. Detection of the CMB dipole through modulation of the thermal Sunyaev-Zeldovich effect: Eppur si muove II

2020

The largest temperature anisotropy in the cosmic microwave background (CMB) is the dipole, which has been measured with increasing accuracy for more than three decades, particularly with the Planck satellite. The simplest interpretation of the dipole is that it is due to our motion with respect to the rest frame of the CMB. Since current CMB experiments infer temperature anisotropies from angular intensity variations, the dipole modulates the temperature anisotropies with the same frequency dependence as the thermal Sunyaev-Zeldovich (tSZ) effect. We present the first (and significant) detection of this signal in the tSZ maps, and find that it is consistent with direct measurements of the CMB dipole, as expected. The signal contributes power in the tSZ maps, modulated in a quadrupolar pattern, and we estimate its contribution to the tSZ bispectrum, noting that it contributes negligible noise to the bispectrum at relevant scales.

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