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The status of the QUIJOTE multi-frequency instrument
Hoyland, R J; Aguiar-Gonz·lez, M; Aja, B; AriÒo, J; Artal, E; Barreiro, R B; Blackhurst, E J; Cagigas, J; Cano de Diego, J L; Casas, F J; Davis, R J; Dickinson, C; Arriaga, B E; Fernandez-Cobos, R; de la Fuente, L; GÈnova-Santos, R; GÛmez, A; Gomez, C; GÛmez-ReÒasco, F; Grainge, K; Harper, S; Herran, D; Herreros, J M; Herrera, G A; Hobson, M P; Lasenby, A N; Lopez-Caniego, M; LÛpez-Caraballo, C; Maffei, B; Martinez-Gonzalez, E; McCulloch, M; Melhuish, S; Mediavilla, A; Murga, G; Ortiz, D; Piccirillo, L; Pisano, G; Rebolo-LÛpez, R; RubiÒo-Martin, J A; Ruiz, J Luis; Sanchez de la Rosa, V; Sanquirce, R; Vega-Moreno, A; Vielva, P; Viera-Curbelo, T; Villa, E; Vizcarg¸enaga, A; Watson, R A
In: Society of Photo-Optical Instrumentation Engineers (SPIE) Conference Series; 2012. p. 33.
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Abstract
The QUIJOTE-CMB project has been described in previous publications. Here we present the current status of the QUIJOTE multi-frequency instrument (MFI) with five separate polarimeters (providing 5 independent sky pixels): two which operate at 10-14 GHz, two which operate at 16-20 GHz, and a central polarimeter at 30 GHz. The optical arrangement includes 5 conical corrugated feedhorns staring into a dual reflector crossed-draconian system, which provides optimal cross-polarization properties (designed to be < -35 dB) and symmetric beams. Each horn feeds a novel cryogenic on-axis rotating polar modulator which can rotate at a speed of up to 1 Hz. The science driver for this first instrument is the characterization of the galactic emission. The polarimeters use the polar modulator to derive linear polar parameters Q, U and I and switch out various systematics. The detection system provides optimum sensitivity through 2 correlated and 2 total power channels. The system is calibrated using bright polarized celestial sources and through a secondary calibration source and antenna. The acquisition system, telescope control and housekeeping are all linked through a real-time gigabit Ethernet network. All communication, power and helium gas are passed through a central rotary joint. The time stamp is synchronized to a GPS time signal. The acquisition software is based on PLCs written in Beckhoffs TwinCat and ethercat. The user interface is written in LABVIEW. The status of the QUIJOTE MFI will be presented including pre-commissioning results and laboratory testing.
Bibliographic metadata
- Hoyland, R J
- Aguiar-Gonz·lez, M
- Aja, B
- AriÃ’o, J
- Artal, E
- Barreiro, R B
- Blackhurst, E J
- Cagigas, J
- Cano de Diego, J L
- Casas, F J
- Davis, R J
- Dickinson, C
- Arriaga, B E
- Fernandez-Cobos, R
- de la Fuente, L
- GÈnova-Santos, R
- GÛmez, A
- Gomez, C
- GÛmez-ReÒasco, F
- Grainge, K
- Harper, S
- Herran, D
- Herreros, J M
- Herrera, G A
- Hobson, M P
- Lasenby, A N
- Lopez-Caniego, M
- LÛpez-Caraballo, C
- Maffei, B
- Martinez-Gonzalez, E
- McCulloch, M
- Melhuish, S
- Mediavilla, A
- Murga, G
- Ortiz, D
- Piccirillo, L
- Pisano, G
- Rebolo-LÛpez, R
- RubiÃ’o-Martin, J A
- Ruiz, J Luis
- Sanchez de la Rosa, V
- Sanquirce, R
- Vega-Moreno, A
- Vielva, P
- Viera-Curbelo, T
- Villa, E
- Vizcarg¸enaga, A
- Watson, R A
- Related website http://adsabs.harvard.edu/abs/2012SPIE.8452E..33H