SFERA Archivio dei prodotti della Ricerca dell'Università di Ferrara

In this paper we present the Low Frequency Instrument (LFI), designed and developed as part of the Planck space mission, the ESA programme dedicated to precision imaging of the cosmic microwave background (CMB). Planck-LFI will observe the full sky in intensity and polarisation in three frequency bands centred at 30, 44 and 70 GHz, while higher frequencies (100–850 GHz) will be covered by the HFI instrument. The LFI is an array of microwave radiometers based on state-of-the-art indium phosphide cryogenic HEMT amplifiers implemented in a differential system using blackbody loads as reference signals. The front end is cooled to 20 K for optimal sensitivity and the reference loads are cooled to 4 K to minimise low-frequency noise. We provide an overview of the LFI, discuss the leading scientific requirements, and describe the design solutions adopted for the various hardware subsystems. The main drivers of the radiometric, optical, and thermal design are discussed, including the stringent requirements on sensitivity, stability, and rejection of systematic effects. Further details on the key instrument units and the results of ground calibration are provided in a set of companion papers.

Planck pre-launch status: Design and description of the Low Frequency Instrument

BERSANELLI M;MANDOLESI N;BUTLER R. C;MENNELLA A;VILLA F;AJA B;ARTAL E;ARTINA E;BACCIGALUPI C;BALASINI M;BALDAN G;BANDAY A;BASTIA P;BATTAGLIA P;BERNARDINO T;BLACKHURST E;BOSCHINI L;BURIGANA C;CAFAGNA G;CAPPELLINI B;CAVALIERE F;COLOMBO F;CRONE G;CUTTAIA F;D'ARCANGELO O;DANESE L;DAVIES R. D;DAVIS R. J;DE ANGELIS L;DE GASPERIS G. C;DE LA FUENTE L;DE ROSA A;DE ZOTTI G;FALVELLA M. C;FERRARI F;FERRETTI R;FIGINI L;FOGLIANI S;FRANCESCHET C;FRANCESCHI E;GAIER T;GARAVAGLIA S;GOMEZ F;GORSKI K;GREGORIO A;GUZZI P;HERREROS J. M;HILDEBRANDT S. R;HOYLAND R;HUGHES N;JANSSEN M;JUKKALA P;KETTLE D;KILPIA V. H;LAANINEN M;LAPOLLA P. M;LAWRENCE C. R;LEAHY J. P;LEONARDI R;LEUTENEGGER P;LEVIN S;LILJE P. B;LOWE S. R;LUBIN D. LAWSON P. M;MAINO D;MALASPINA M;MARIS M;MARTI CANALES J;MARTINEZ GONZALEZ E;MEDIAVILLA A;MEINHOLD P;MICCOLIS M;MORGANTE G;NATOLI, Paolo;NESTI R;PAGAN L;PAINE C;PARTRIDGE B;PASCUAL J. P;PASIAN F;PEARSON D;PECORA M;PERROTTA F;PLATANIA P;POSPIESZALSKI M;POUTANEN T;PRINA M;REBOLO R;RODDIS N;RUBINO MARTIN J. A;SALMON N. M. J;SANDRI M;SEIFFERT M;SILVESTRI R;SIMONETTO A;SJOMAN P;SMOOT G. F;SOZZI C;STRINGHETTI L;TADDEI E;TAUBER J;TERENZI L;TOMASI M;TUOVINEN J;VALENZIANO L;VARIS J;VITTORIO N;WADE L. A;WILKINSON A;WINDER F;ZACCHEI A;ZONCA A.

2010

Abstract

In this paper we present the Low Frequency Instrument (LFI), designed and developed as part of the Planck space mission, the ESA programme dedicated to precision imaging of the cosmic microwave background (CMB). Planck-LFI will observe the full sky in intensity and polarisation in three frequency bands centred at 30, 44 and 70 GHz, while higher frequencies (100–850 GHz) will be covered by the HFI instrument. The LFI is an array of microwave radiometers based on state-of-the-art indium phosphide cryogenic HEMT amplifiers implemented in a differential system using blackbody loads as reference signals. The front end is cooled to 20 K for optimal sensitivity and the reference loads are cooled to 4 K to minimise low-frequency noise. We provide an overview of the LFI, discuss the leading scientific requirements, and describe the design solutions adopted for the various hardware subsystems. The main drivers of the radiometric, optical, and thermal design are discussed, including the stringent requirements on sensitivity, stability, and rejection of systematic effects. Further details on the key instrument units and the results of ground calibration are provided in a set of companion papers.

Scheda breve

Scheda completa

Scheda completa (DC)

	Anno di pubblicazione
	
			2010
		
	DOI
	
			https://dx.doi.org/10.1051/0004-6361/200912853
		
	Titolo della Rivista
	
			ASTRONOMY & ASTROPHYSICS
		
	Tutti gli autori
	
			Bersanelli, M; Mandolesi, N; Butler, R. C.; Mennella, A; Villa, F; Aja, B; Artal, E; Artina, E; Baccigalupi, C; Balasini, M; Baldan, G; Banday, A; Bastia, P; Battaglia, P; Bernardino, T; Blackhurst, E; Boschini, L; Burigana, C; Cafagna, G; Cappellini, B; Cavaliere, F; Colombo, F; Crone, G; Cuttaia, F; D'Arcangelo, O; Danese, L; Davies, R. D.; Davis, R. J.; DE ANGELIS, L; DE GASPERIS, G. C.; DE LA FUENTE, L; DE ROSA, A; DE ZOTTI, G; Falvella, M. C.; Ferrari, F; Ferretti, R; Figini, L; Fogliani, S; Franceschet, C; Franceschi, E; Gaier, T; Garavaglia, S; Gomez, F; Gorski, K; Gregorio, A; Guzzi, P; Herreros, J. M.; Hildebrandt, S. R.; Hoyland, R; Hughes, N; Janssen, M; Jukkala, P; Kettle, D; Kilpia, V. H.; Laaninen, M; Lapolla, P. M.; Lawrence, C. R.; Leahy, J. P.; Leonardi, R; Leutenegger, P; Levin, S; Lilje, P. B.; Lowe, S. R.; Lubin, D. LAWSON P. M.; Maino, D; Malaspina, M; Maris, M; MARTI CANALES, J; MARTINEZ GONZALEZ, E; Mediavilla, A; Meinhold, P; Miccolis, M; Morgante, G; Natoli, Paolo; Nesti, R; Pagan, L; Paine, C; Partridge, B; Pascual, J. P.; Pasian, F; Pearson, D; Pecora, M; Perrotta, F; Platania, P; Pospieszalski, M; Poutanen, T; Prina, M; Rebolo, R; Roddis, N; RUBINO MARTIN, J. A.; Salmon, N. M. J.; Sandri, M; Seiffert, M; Silvestri, R; Simonetto, A; Sjoman, P; Smoot, G. F.; Sozzi, C; Stringhetti, L; Taddei, E; Tauber, J; Terenzi, L; Tomasi, M; Tuovinen, J; Valenziano, L; Varis, J; Vittorio, N; Wade, L. A.; Wilkinson, A; Winder, F; Zacchei, A; Zonca, A.
		
	Appare nelle tipologie:
	
			03.1 Articolo su rivista

File in questo prodotto:

Non ci sono file associati a questo prodotto.

I documenti in SFERA sono protetti da copyright e tutti i diritti sono riservati, salvo diversa indicazione.

Utilizza questo identificativo per citare o creare un link a questo documento: https://hdl.handle.net/11392/1560236

Attenzione

Attenzione! I dati visualizzati non sono stati sottoposti a validazione da parte dell'ateneo

Citazioni

ND

142

125

social impact