- Ulysses (spacecraft)
Name = Ulysses
Caption = Ulysses spacecraft
Mission_Type = Orbiter
Flyby_Of = Jupiter
Satellite_Of = The
6 October 1990
Launch_Vehicle = OV|103,
Mission_Duration = 17 years and 7 months
6 October 1990- 1 July 2008)
"Ulysses" is a robotic
space probedesigned to study the Sunat all latitudes. The spacecraft, named for the Latin translationof " Odysseus", was launched October 6, 1990from the Space Shuttle"Discovery" (mission STS-41) as a joint venture of NASAand the European Space Agency. It was originally scheduled for launch in 1986 aboard the Space Shuttle Challenger. The spacecraft was equipped with instruments to characterize fields, particles, and dust, and was powered by a radioisotope thermoelectric generator(RTG). By February of 2008, the power output from the RTG, which is generated by heat from the radioactive decay of plutonium-238, dwindled to the point where it was insufficient to power some critical internal heaters to keep the spacecraft's attitude controlhydrazine fuel from freezing.
The nominal end of mission date was supposed to have been July 1, 2008. [ [http://www.esa.int/esaCP/SEMTDTUG3HF_index_0.html ESA Portal - Sun to set on Ulysses solar mission on 1 July] ] Nevertheless mission operations are continuing past this date, [ [http://www.esa.int/esaCP/SEMKWKSHKHF_index_0.html ESA Portal - Ulysses hanging on valiantly] ] the cessation of mission operations and deactivation or hibernation of the spacecraft will probably be determined by when the attitude control fuel freezes. [ [http://news.bbc.co.uk/2/hi/science/nature/7632331.stm Solar wind blows at 50-year low]
2008-09-24, Jonathan Amos, BBC News Online. Retrieved 2008-09-28]
Until Ulysses, the Sun was only observed from low solar latitudes. The Earth's orbit defines the
eclipticplane, which differs from the Sun's equatorial plane by only 7.25 degrees. Even spacecraft directly orbiting the Sun do so in planes close to the ecliptic because a direct launch into a high inclination solar orbit would require a prohibitively large launch vehicle.
Several spacecraft (
Mariner 10, Pioneer 11, and Voyagers 1 and 2) had performed gravity assistmaneuvers in the 1970s. Those maneuvers were to reach other planets also orbiting close to the ecliptic, so they were mostly in-plane changes. However, gravity assists are not limited to in-plane maneuvers; a suitable flyby of Jupitercould produce a significant plane change. An Out-Of-The-Ecliptic mission (OOE) was thereby proposed. "See article" Pioneer H.
Originally, two spacecraft were to be built by NASA and ESA, as the International Solar Polar Mission. One would be sent over Jupiter, then under the Sun. The other would fly under Jupiter, then over the Sun. This would provide simultaneous coverage. Due to cutbacks, the US spacecraft was canceled in 1981. One spacecraft was designed, and the project recast as "Ulysses," due to the indirect and untried flight path. NASA would provide the Radioisotope Thermoelectric Generator (RTG) and launch services, ESA would build the spacecraft assigned to Astrium GmbH, Friedrichshafen, Germany (formerly Dornier Systems). The instruments would be split into teams from universities and research institutes in Europe and the United States. This process provided the 10 instruments on board.
The changes delayed launch from February 1983 to May 1986 where it was to be deployed by the "
Space Shuttle Challenger", however, the Challenger disaster pushed the date to October 1990.
"Ulysses" was launched from a Space Shuttle during low-Earth orbit. It was then propelled towards Jupiter by a combination of solid fuel motors. [ [http://www.esa.int/esaSC/SEMTDTUG3HF_index_0.html ESA - Space Science - Sun to set on Ulysses solar mission on 1 July ] ] The booster consisted of a two-stage
BoeingIUS (Inertial Upper Stage), plus a McDonnell DouglasPAM-S ( Payload Assist Module-Special) on a 70 rpm spin table. On leaving Earth, the spacecraft became the fastest ever artificially-accelerated object; the New Horizonsprobe has since set the new record.
On its way to Jupiter the spacecraft was in an elliptical
Hohmann transfer orbitwith perihelion near 1 AU and aphelion near 5 AU, Jupiter's distance from the sun. At this time Ulysses had a low orbital inclination to the ecliptic.
It arrived at Jupiter February 8th 1992 for a
swing-by maneuverthat increased its inclination to the eclipticby 80.2 degrees. The giant planet's gravity bent the spacecraft's flight path downward and away from the ecliptic plane. This put it into a final orbit around the Sun that would take it past the Sun's north and south poles. The size and shape of the orbit were adjusted to a much smaller degree so that aphelion remained at approximately 5 AU, Jupiter's distance from the sun, and perihelion was somewhat greater than 1 AU, the earth's distance from the sun.
olar northern polar regions
1994and 1995it explored both the northern solar polar regions.
May 1, 1996, the spacecraft unexpectedly crossed the ion tail of Comet Hyakutake(C/1996 B2), revealing the tail to be at least 3.8 AU in length.cite journal | author=Jones GH, Balogh A, Horbury TS | title=Identification of comet Hyakutake's extremely long ion tail from magnetic field signatures | journal=Nature | volume=404 | issue=6778 | year=2000 | pages=574–6 | pmid=10766233 | doi=10.1038/35007011]
olar southern polar regions
2000and 2001it explored the southern solar polar regions, which gave many unexpected results. In particular the southern magnetic pole was found to be much more dynamic and without any fixed clear location. It is, of course, wrong to say that the Sun has no magnetic south pole. The Sun is not a magnetic monopole; the pole is merely more diffusely located than the north pole.Fact|date=September 2008
aphelionin 2003/ 2004and made further distant observations of Jupiter. [ [http://ulysses.jpl.nasa.gov/science/jupiter_two.html Ulysses - Science - Jupiter Distant Encounter Selected References ] ]
Encounter with a comet tail happened again in 2004 when Ulysses flew through the ion tailings of
Comet McNaught-Hartley. A coronal mass ejectioncarried the cometary material to Ulysses.
In 2007 Ulysses passed through the tail of
Comet McNaught. The results were surprisingly different from its pass through Hyakutake's tail, with the measured solar wind velocity dropping from approximately 700 kilometers per second to less than 400 kilometers per second. [cite journal | url=http://www.journals.uchicago.edu/doi/abs/10.1086/521019 | last=Neugebauer | first= Gloeckle | coauthors= et al. | title=Encounter of the Ulysses Spacecraft with the Ion Tail of Comet McNaught | journal=The Astrophysical Journal| volume=667 | issue=2 | year=2007 | month=October 1 | pages=1262–1266 | doi=10.1086/521019 | format=abstract]
ESA's Science Programme Committee approved the fourth extension of the Ulysses mission to March 2009 [ [http://sci.esa.int/science-e/www/object/index.cfm?fobjectid=34647 ESA Science & Technology: Ulysses Mission Extended] ] thereby allowing it to operate over the Sun's poles for the third time in
2007and 2008. After it became clear that the power output from the spacecraft's RTG would be insufficient to operate science instruments and keep the attitude controlfuel, hydrazine, from freezing, instrument power sharing was initiated. Up until then, the most important instruments had been kept online constantly, whilst others were deactivated. When the probe neared the sun, its power-hungry heaters were turned off and all instruments were turned on. [ [http://www.esa.int/esaCP/SEMUHTN2UXE_index_0.html ESA Portal - Ulysses scores a hat-trick ] ]
February 22, 2008, 17 years 4 months after the launch of the spacecraft, ESAand NASAannounced that mission operations for Ulysses would be likely to cease within a few months. [cite web|url=http://www.esa.int/esaCP/SEM6UE3CXCF_index_0.html|title=Ulysses mission coming to a natural end|date=2008-02-22|accessdate=2008-02-23|publisher= European Space Agency] [cite news|url=http://www.nasa.gov/topics/solarsystem/features/ulysses-20080222.html|title=International Solar Mission to End Following Stellar Performance|accessdate=2008-02-23|date=2008-02-22|publisher= NASA] On April 12, 2008 NASA announced that the end date will be July 1, 2008. [http://news.yahoo.com/s/ap/20080612/ap_on_sc/sci_solar_probe] The spacecraft operated successfully for over four times its design life. A component within the last remaining working chain of X-band downlink sub-system failed on January 15, 2008. The other chain in the X-band sub-system had previously failed in 2003. [cite web|url=http://ulysses-ops.jpl.esa.int/ulsfct/opsfiles/03feb_ops.html|title=February 2003 Operations|publisher= European Space Agency] Downlinkto Earthresumed on S-band, but the beamwidthof the high gain antennaon S-band is not as narrow as on X – so the downlink signal is much weaker, thereby reducing the achievable data rate. As the spacecraft travels on its outbound trajectoryto the orbit of Jupiter, the downlink signal will eventually fall below the receiving capability of even the largest antennas (70m in diameter) of the Deep Space Network. Even before the downlink signal is lost, the hydrazineattitude control fuel on-board the spacecraft will likely freeze, as the radioisotope thermal generatorsfail to generate enough power for the heaters to combat the cold of space. Once the hydrazine freezes, the spacecraft will no longer be able to maneuver to keep its high gain antenna pointing towards Earth, and the downlink signal will then be lost in a matter of days. The failure of the X-band communications sub-system hastens this, because the coldest part of the fuel pipework was routed over the X-band TWTAs which, when one of them was operating, kept this part of the pipework sufficiently warm.
The previously announced mission end date of July 1, 2008 came and went but mission operations is continuing albeit in a reduced capacity. The availability of science data gathering is limited to only when the Ulysses is in contact with a ground station due to the deteriorating S-band downlink margin no longer being able to support simultaneous real-time data and tape recorder playback [ [http://ulysses-ops.jpl.esa.int/ulsfct/opsfiles/08may_ops.html#max-512bps Ulysses Mission Ops - No more data playback] ] . When the spacecraft is out of contact with a ground station, the S-band transmitter is switched off and the power is diverted to keep the internal heaters to add to the warming of the hydrazine. The eventual date of mission cessation will probably be determined by when the hydrazine freezes or when it is depleted.
During cruise phases, "Ulysses" provided unique data. As the only spacecraft out of the ecliptic with a gamma-ray instrument, "Ulysses" was an important part of the
InterPlanetary Network(IPN). The IPN detects gamma ray bursts (GRBs); since gamma rays cannot be focused with mirrors, it was very difficult to locate GRBs with enough accuracy to study them further. Instead, several spacecraft can locate the burst through triangulation(or, more specifically, multilateration). Each spacecraft has a gamma-ray detector, with readouts noted in tiny fractions of a second. By comparing the arrival times of gamma showers with the separations of the spacecraft, a location can be determined, for follow-up with other telescopes. Because gamma rays travel at the speed of light, wide separations are needed. Typically, a determination came from comparing: one of several spacecraft orbiting the Earth, an inner-Solar-system probe (to Mars, Venus, or an asteroid), and "Ulysses". When "Ulysses" crossed the ecliptic twice per orbit, many GRB determinations lost accuracy.
Additional discoveries: [ [http://www.jpl.nasa.gov/news/news.cfm?release=2008-106 NASA : International Mission Studying Sun to Conclude] ]
* "Ulysses" discovered that the Sun's magnetic field interacts with the Solar system in a more complex fashion than previously believed.
* Ulysses discovered that dust coming into the solar system from deep space was 30 times more abundant than previously expected.
* In 2007-2008 "Ulysses" determined that the magnetic field emanating from the sun's poles is much weaker than previously observed.
The spacecraft body was roughly a box, approximately 10 × 11 × 7 feet in size (3 × 3.3 × 2 m). The box mounted the 1.65 meter
dish antennaand the RTG power source. The box was divided into noisy and quiet sections. The noisy section abutted the RTG; the quiet section housed the instrument electronics. Particularly "loud" components, such as the preamps for the radio dipole, were mounted outside the structure entirely, and the box acted as a Faraday cage.
"Ulysses" was spin-stabilized about the axis of the dish. The RTG, whip antennas, and instrument boom were placed to stabilize this axis. Spin was nominally 5 rpm. Inside the body was a
hydrazinefuel tank. Hydrazine monopropellantwas used for course corrections, and to repoint the spin axis (and thus, the antenna) at Earth. The spacecraft was controlled by eight thrusters, in two blocks. Thrusters were pulsed in the time domain to perform rotation or translation. Four Sun sensors detected orientation. For fine attitude control, the S-band antenna feed could be tipped slightly off-axis. A signal from Earth then pulsed with the 5 rpm spin. The pulsing was deconvolved into orientation, a method called CONSCAN.
The spacecraft used S-band for uplinked commands and downlinked telemetry, through dual redundant 5-watt transceivers. The spacecraft used X-band for science return (downlink only), using dual 20W
TWTAs. Both bands used the dish antenna; both were prime-focus feeds, unlike the Cassegrain feeds of most other spacecraft dishes.
Dual tape recorders, each of approximately 45 megabit capacity, stored science data between the nominal 8-hour communications sessions. During peak DSN periods, the instruments recorded at lower resolution to reduce the load on the DSN.
The spacecraft was designed to withstand both the heat of the inner solar system and the cold at Jupiter distance. Extensive blanketing and electric heaters protected against cold. Heating was minimized by the 1.3 AU
perihelion, meaning that "Ulysses" always studied the sun from a greater distance than the Earth.
Overall weight at launch was 390 kg (814 pounds).
Radio/Plasma antennas. Two beryllium-copper antennas unreeled outwards from the body, perpendicular to the RTG and spin axis. Together this
dipolespanned 72 meters. A third antenna, of hollow beryllium-copper, deployed from the body, along the spin axis opposite the dish. It was a monopole antenna, 7.5 meters long. These measured radio waves generated by plasma releases, or the plasma itself as it passed over the spacecraft.
Experiment Boom. A third type of boom, shorter and much more rigid, extended from the last side of the spacecraft, opposite the RTG. This was a hollow carbon-fiber tube, of 50 mm diameter. It can be seen in the photo as the silver rod stowed alongside the body. It carried four types of instruments. A solid-state
X-rayinstrument, which was composed of two silicondetectors to study X-rays from solar flares and Jupiter's aurorae. The GRB experiment consisted of two CsI scintillator crystals with photomultipliers. Two different magnetometers were mounted: a vector helium magnetometer and a fluxgate magnetometer. A two axis magnetic search coil antenna measured AC magnetic fields.
Body-Mounted Instruments. Detectors for
electrons, ions, neutral gas, dust, and cosmic rays were mounted on the spacecraft body around the quiet section.
:SWOOPS (Solar Wind Observations Over the Poles of the Sun) measures positive ions and electrons. [Goldstein, Bruce. [http://helio.estec.esa.nl/ulysses/archive/swoops_bae_un.html SWOOPS/Electron - User Notes] ,
Jet Propulsion Laboratory]
Lastly, the radio communications link could be used to search for gravity waves (through
Doppler shifts) and to probe the Sun's atmosphere through occultation.
Total instrument mass was 55 kg.
* [http://sci.esa.int/ulysses/ ESA "Ulysses" website]
* [http://ulysses-ops.jpl.esa.int/ ESA "Ulysses" mission operations website]
* [http://ulysses.jpl.nasa.gov/ NASA/JPL "Ulysses" website]
* [http://solarsystem.nasa.gov/missions/profile.cfm?MCode=Ulysses Ulysses Measuring Mission Profile] by [http://solarsystem.nasa.gov NASA's Solar System Exploration]
* [http://ulysses-ops.jpl.esa.int/ulsfct/spacecraft/scframe.html ESA/NASA/JPL: "Ulysses" subsystems and instrumentation in high detail]
* [http://ulysses-ops.jpl.esa.int/ulsfct/rgpCafe/solsys/solsys.html Where is Ulysses now!]
* [http://www.mps.mpg.de/de/projekte/ulysses/ Max Planck Institute "Ulysses" website]
* [http://www.planetary.org/radio/show/00000303/ Interview with Ulysses Mission Operations Manager Nigel Angold on Planetary Radio]
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