Cosmic Dust Analyzer
The Cosmic Dust Analyzer was a large-area multi-sensor dust instrument included on the Cassini spacecraft, which was launched in 1997 and orbited Saturn from 2004 to 2017. The instrument included a chemical dust analyzer, a highly reliable impact ionization detector, and two high rate polarized polyvinylidene fluoride detectors. Over 7 years en route to Saturn, the CDA analysed the interplanetary dust cloud, the stream of interstellar dust, and Jupiter dust streams. During 13 years in orbit around Saturn, the CDA studied the E ring, dust in the plumes of Enceladus, and dust in Saturn's environment.
Overview
The Cosmic Dust Analyzer was the seventh dust instrument from the Max Planck Institute for Nuclear Physics, Heidelberg following the dust detectors on the HEOS 2 satellite and dust detectors on the Galileo and Ulysses space probes and the more complex dust analyzers on the Helios spacecraft, the Giotto and VeGa spacecraft to Halley's Comet. The new dust analyzer system was developed by a team of scientists led by Eberhard Grün and engineers led by Dietmar Linkert to analyze dust in the Saturn system on board the Cassini spacecraft. This instrument employed a larger sensitive area impact detector, a smaller time-of-flight mass spectrometer chemical analyzer and two high rate polarized polyvinylidene fluoride detectors, in order to cope with the high fluxes during crossings of the E ring. The Max Planck Institute for Nuclear Physics in Heidelberg was responsible for the overall instrument development and test. Major contributions were provided by the DLR in Berlin-Adlershof, Tony McDonnell from University of Canterbury , Rutherford Appleton Laboratory and G. Pahl. The PVDF detectors were provided by Tony Tuzzolino from the University of Chicago.The proposing Principal Investigator for CDA was Eberhard Grün. In 1990 the PI-ship was handed over to Ralf Srama from the Max Planck Institute for Nuclear Physics, who is now at the University of Stuttgart, Germany. Ralf Srama got his degree “Dr.-Ing.” from the Technical University of Munich for his Thesis, "From the Cosmic-Dust-Analyzer to a model describing scientific spacecraft".
The main sensor of CDA was an impact ionization detector, similar to the Galileo and Ulysses Dust Detectors. The center of the hemispherical target had the smaller Chemical Analyzer Target, CAT, at +1000 V electric potential. Three millimeters in front of the target was a grid at 0 V potential. Dust impacts onto CAT generated a plasma that was separated by the high electric field. Ions obtained an energy of ~1000eV and were focused towards the center collector. Ions were partly collected by the semi-transparent grid at 230 millimeter distance and the center electron multiplier. The waveforms of the charge signals were measured, stored and transmitted to ground. The multiplier signal represented a time-of-flight mass spectrum of the released ions. Two of the four grids at the entrance of the analyzer picked up the electric charge of the dust particle. With these capabilities, the CDA can be considered a prototype dust telescope.
CDA measured the micrometeoroid environment for 18 years, from 1999 until the last active seconds of Cassini in 2017 without major degradation. The instrument fly-away-cover was released in 1997 on day 317. Science planning and operations were managed by Max-Planck-Institute for Nuclear Physics and later by the University of Stuttgart.
The Cassini spacecraft was a three-axes stabilized spacecraft with the antenna occasionally pointing to Earth in order to download data and receive operational commands. In the mean time Cassini’s attitude was controlled by requested observations from one or more of the 12 instruments onboard. In order to obtain some more control of its pointing attitude, CDA employed a turntable between the spacecraft and the dust analyzer.