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| | | | | | | Coolest spacecraft ever in orbit around L2
3 July 2009
| Located in the focal plane of the telescope, Planck’s Low Frequency Instrument (LFI), and the High Frequency Instrument
(HFI), are equipped with a total of 74 detectors covering nine frequency channels. These detectors must be cooled to
temperatures around or below 20 K so that their heat does not swamp the faint microwave signals they are designed to detect.
The first part of this animation shows the different stages of Planck’s active cooling system. This active cooling system consists
of a three-stage refrigeration chain which takes over after the passive cooling system cools the telescope to about 50 K.
The first stage makes use of liquid hydrogen to reduce the temperatures to 20 K. The second stage is a mechanical cooler (a
pump) that uses liquid helium (4He) to bring the temperatures down to 4 K. The third stage makes use of a mixture of Helium 3
and Helium 4 (3He and 4He) to reach an amazing low temperature of just 0.1 K.
The second part of the animation shows microwave light collected by telescope reaching the instrument detectors via the
conical feed horns. The bolometric detectors of the HFI, located behind the horns, absorb the light and heat up slightly.
Credits: ESA (animation by AOES Medialab) | |  |  | |
| | | | Like measuring the heat of a rabbit on the Moon
| | This artist's impression shows the focal plane unit of the Planck telescope.
Planck's instruments will operate at a few degrees above absolute zero. To achieve this, a series of cooling stages are required. Without any additional cooling, the spacecraft itself can passively cool to around 50 K (about -223ºC).
For the Low Frequency Instrument (LFI) the focal plane is cooled to around 20 K (about -253ºC). The signals received in the instrument horns are amplified and passed through waveguides to a back-end unit (which is at around 300 K, or about 27ºC) where the signals are processed.
The High Frequency Instrument (HFI) unit is more compact and sits entirely within the LFI housing at about 18 K (about -255ºC). The bolometers (devices for measuring incident electromagnetic radiation) are then stage cooled to just 0.1 K (-273.14ºC) with the detected signals again processed in a warmer back-end readout and data processing unit.
Isolating the various components and cooling only small volumes to the coldest temperatures the optimum efficiencies and mission achieve lifetime.
Credits: ESA (Image by AOES Medialab) | | | | |
| | | | | Planck's orbit around L2, the second Lagrange point of the Sun-Earth system.
Credits: ESA | | | | |
| | | | | | | | Science operations to begin soon
| Planck will scan the entire sky to build the most accurate map ever of the Cosmic Microwave Background (CMB), the relic radiation from the Big Bang. The spacecraft will spin at 1 rotation per minute around an axis offset by about 85° so that the observed sky region will trace a large circle on the sky. As the spin axis follows the Sun the circle observed by the instruments sweeps through the sky at a rate of 1° per day.
Planck will take about 6 months to complete a full scan of the sky, allowing the creation of two complete sky maps during the nominal mission lifetime (about 15 months).
Credits: ESA (animation by C. Carreau) | | | | |
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| | Planck: looking back at the dawn of time Spacecraft Operations Related articles Planck satellite manoeuvre aims at L2 arrivalHerschel and Planck commissioning has begunHerschel and Planck: Near-perfect injection by ArianeESA's cosmic explorers in flight: stunning images from ground and spaceESA en route to the origins of the UniverseWatch Herschel-Planck launch 14 May 2009 15:12 CEST (replay)Herschel and Planck launch timelineRead more InstrumentsL2, the second Lagrangian PointIn depth This article in depthPlanck in depthRelated links HFI consortiumLFI consortium
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