Planck early results: first assessment of the High Frequency Instrument   in-flight performance

Planck HFI Core Team: P. A. R. Ade (47) N. Aghanim (25) R. Ansari (39); M. Arnaud (35) M. Ashdown (33,54) J. Aumont (25) A. J. Banday (52,5,41) M.; Bartelmann (51,41) J. G. Bartlett (1,31) E. Battaner (57) K. Benabed (26) A.; Benot (26) J.-P. Bernard (52,5) M. Bersanelli (15,20) R. Bhatia (17) J. J.; Bock (31,6) J. R. Bond (3) J. Borrill (40,49) F. R. Bouchet (26) F. Boulanger; (25) T. Bradshaw (45) E. Brelle (1) M. Bucher (1) P. Camus (38) J.-F. Cardoso; (36,1,26) A. Catalano (1,34) A. Challinor (55,33,7) A. Chamballu (23) J.; Charra (25,+) M. Charra (25) R.-R. Chary (24) C. Chiang (11) S. Church (50); D. L. Clements (23) S. Colombi (26) F. Couchot (39) A. Coulais (34) C.; Cressiot (1) B. P. Crill (31,43) M. Crook (45) P. de Bernardis (14) J.; Delabrouille (1) J.-M. Delouis (26) F.-X. D\'esert (22) K. Dolag (41) H. Dole; (25) O. Dor\'e (31,6) M. Douspis (25) G. Efstathiou (55) P. Eng (25) C.; Filliard (39) O. Forni (52,5) P. Fosalba (27) J.-J. Fourmond (25) K. Ganga; (1,24) M. Giard (52,5) D. Girard (38) Y. Giraud-H\'eraud (1) R. Gispert; (25,+) K. M. Gorski (31,59) S. Gratton (33,55) M. Griffin (47) G. Guyot (21); J. Haissinski (39) D. Harrison (55,33) G. Helou (6) S. Henrot-Versill\'e (39); C. Hernandez-Monteagudo (41) S. R. Hildebrandt (6,38,30) R. Hills (56) E.; Hivon (26) M. Hobson (54) W. A. Holmes (31) K. M. Huenberger (58) A. H. Jae; (23) W. C. Jones (11) J. Kaplan (1) R. Kneissl (16,2) L. Knox (12) G. Lagache; (25) J.-M. Lamarre (34) P. Lami (25) A. E. Lange (24,+) A. Lasenby (54,33) A.; Lavabre (39) C. R. Lawrence (31) B. Leriche (25) C. Leroy (25,52,5) Y.; Longval (25) J. F. Macas-Perez (38) T. Maciaszek (4) C. J. MacTavish (33) B.; Maei (32) N. Mandolesi (19) R. Mann (46) B. Mansoux (39) S. Masi (14) T.; Matsumura (6) P. McGehee (24) J.-B. Melin (8) C. Mercier (25) M.-A.; Miville-Deschnes (25,3) A. Moneti (26) L. Montier (52,5) D. Mortlock (23) A.; Murphy (42) F. Nati (14) C. B. Nettereld (10) H. U. Norgaard-Nielsen (9) C.; North (47) F. Noviello (25) D. Novikov (23) S. Osborne (50) C. Paine (31) F.; Pajot (25) G. Patanchon (1) T. Peacocke (42) T. J. Pearson (6,24) O.; Perdereau (39) L. Perotto (38) F. Piacentini (14) M. Piat (1) S. Plaszczynski; (39) E. Pointecouteau (52,5) R. Pons (52,5) N. Ponthieu (25) G. Prezeau; (6,31) S. Prunet (26) J.-L. Puget (25) W. T. Reach (53) C. Renault (38) I.; Ristorcelli (52,5) G. Rocha (31,6) C. Rosset (1) G. Roudier (1) M.; Rowan-Robinson (23) B. Rusholme (24) D. Santos (38) G. Savini (44) B. M.; Schaefer (51) P. Shellard (7) L. Spencer (47) J.-L. Starck (35,8) P. Stassi; (38) V. Stolyarov (54) R. Stompor (1) R. Sudiwala (47) R. Sunyaev (41,48); J.-F. Sygnet (26) J. A. Tauber (17) C. Thum (29) J.-P. Torre (25) F. Touze; (39) M. Tristram (39) F. Van Leeuwen (55) L. Vibert (25) D. Vibert (37) L. A.; Wade (31) B. D. Wandelt (26,13) S. D. M. White (41) H. Wiesemeyer (28) A.; Woodcraft (47) V. Yurchenko (42) D. Yvon (8) A. Zacchei (18)

arXiv:1101.2039·astro-ph.IM·May 27, 2015

Planck early results: first assessment of the High Frequency Instrument in-flight performance

Planck HFI Core Team: P. A. R. Ade (47) N. Aghanim (25) R. Ansari (39), M. Arnaud (35) M. Ashdown (33,54) J. Aumont (25) A. J. Banday (52,5,41) M., Bartelmann (51,41) J. G. Bartlett (1,31) E. Battaner (57) K. Benabed (26) A., Benot (26) J.-P. Bernard (52,5) M. Bersanelli (15

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TL;DR

The paper reports on the in-flight performance assessment of the Planck HFI, confirming its operational stability, optical accuracy, and identifying cosmic ray effects on bolometer data, crucial for CMB measurements.

Contribution

First comprehensive evaluation of Planck HFI's in-flight performance, validating ground tests and analyzing cosmic ray impacts on data quality.

Findings

01

HFI operated flawlessly since launch.

02

Optical beams matched predictions from physical optics.

03

Cosmic rays cause inhomogeneous heating affecting low frequency noise.

Abstract

The Planck High Frequency Instrument (HFI) is designed to measure the temperature and polarization anisotropies of the Cosmic Microwave Background and galactic foregrounds in six wide bands centered at 100, 143, 217, 353, 545 and 857 GHz at an angular resolution of 10' (100 GHz), 7' (143 GHz), and 5' (217 GHz and higher). HFI has been operating flawlessly since launch on 14 May 2009. The bolometers cooled to 100 mK as planned. The settings of the readout electronics, such as the bolometer bias current, that optimize HFI's noise performance on orbit are nearly the same as the ones chosen during ground testing. Observations of Mars, Jupiter, and Saturn verified both the optical system and the time response of the detection chains. The optical beams are close to predictions from physical optics modeling. The time response of the detection chains is close to pre-launch measurements. The…

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