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Titan's pebbles 'seen' by Huygens radio
July 26, 2006An unexpected radio reflection from the surface of Titan has allowed ESA scientists to deduce the average size of stones and pebbles close to the Huygens' landing site. The technique could be used on other lander missions to analyse planetary surfaces for free.
When Huygens came to rest on the surface of Titan on 14 January 2005, it survived the impact and continued to transmit to the Cassini mothership, orbiting above. Part of that radio signal 'leaked' downwards and hit the surface of Titan before being reflected back up to Cassini. On its way up, it interfered with the direct beam.
As Miguel Pérez-AyĆ°car, a member of the Huygens Team at ESA's European Space Research and Technology Centre (ESTEC) in The Netherlands, and his colleagues watched the signal coming back, they were initially puzzled to see the power of the signal rising and falling in a repetitive manner.
"Huygens had not been designed to necessarily survive impact so we had never thought about what the signal would look like from the surface," says Pérez. After making a joke that aliens must be dragging the craft along the surface, Pérez and the team began work at once to understand the signal.
The clue was the repetitive oscillation of the power. It made Pérez think about the interaction of the direct signal with that reflecting from the surface of Titan. As Cassini travelled away from the Huygens landing site, the angle between it and Huygens changed. This altered the way in which the interference between the reflected and direct beams was detected, perhaps causing the variation in power.
He began running computer models and saw that not only could he reproduce the received signal but also it was sensitive to the size of pebbles on the surface of Titan.
Cassini collected data for 71 minutes after Huygens landed. After that time, the spacecraft's motion took it below the horizon as seen from Huygens' landing site. Until then, it soaked up radio signals that encoded information about a swathe of Titan's surface from 1 metre to 2 kilometres to the west of the landed probe.
To accurately mirror the true signal, Pérez and his team discovered that the surface swathe must be relatively flat and covered mostly in stones of around 5-10 centimetres in diameter.
This unique result complements the data taken by the Descent Imager and Spectral Radiometer (DISR) instrument. When Huygens came to rest on the surface of Titan, DISR was pointing due south. Its images show stones and terrain in good agreement with the newly deduced western facing radio data. "This is a real bonus to the mission. It requires no special equipment, just the usual communications subsystem," says Pérez.
Now that the scientists have understood the process using the unexpected Huygens data, the technique could be implemented on future lander missions. "This experience can be inherited by any future lander," says Pérez, "All that will be needed is a few refinements and it will become a powerful technique."
By subtly altering the properties of the radio beam for instance, the radio transmitter and receiver can be optimised to help deduce the chemical composition of the planetary surface.
European Space Agency
The clue was the repetitive oscillation of the power. It made Pérez think about the interaction of the direct signal with that reflecting from the surface of Titan. As Cassini travelled away from the Huygens landing site, the angle between it and Huygens changed. This altered the way in which the interference between the reflected and direct beams was detected, perhaps causing the variation in power.
He began running computer models and saw that not only could he reproduce the received signal but also it was sensitive to the size of pebbles on the surface of Titan.
Cassini collected data for 71 minutes after Huygens landed. After that time, the spacecraft's motion took it below the horizon as seen from Huygens' landing site. Until then, it soaked up radio signals that encoded information about a swathe of Titan's surface from 1 metre to 2 kilometres to the west of the landed probe.
To accurately mirror the true signal, Pérez and his team discovered that the surface swathe must be relatively flat and covered mostly in stones of around 5-10 centimetres in diameter.
This unique result complements the data taken by the Descent Imager and Spectral Radiometer (DISR) instrument. When Huygens came to rest on the surface of Titan, DISR was pointing due south. Its images show stones and terrain in good agreement with the newly deduced western facing radio data. "This is a real bonus to the mission. It requires no special equipment, just the usual communications subsystem," says Pérez.
Now that the scientists have understood the process using the unexpected Huygens data, the technique could be implemented on future lander missions. "This experience can be inherited by any future lander," says Pérez, "All that will be needed is a few refinements and it will become a powerful technique."
By subtly altering the properties of the radio beam for instance, the radio transmitter and receiver can be optimised to help deduce the chemical composition of the planetary surface.
European Space Agency
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Hot spot on Enceladus causes plumes
Enceladus, the tiny satellite of Saturn, is colder than ice, but data gathered by the Cassini-Huygens Mission to Saturn and Titan has detected a hot spot that could mean there is life in the old moon after all. In fact, for researchers of the outer planets, Enceladus is so intellectually hot, it's smokin'.
Drizzly mornings on Xanadu
Noted for its bizarre hydrocarbon lakes and frozen methane clouds, Saturn's largest moon, Titan, also appears to have widespread drizzles of methane, according to a team of astronomers at the University of California, Berkeley.
Cassini on the trail of a runaway mystery
Scientists are on the trail of Iapetus' mysterious dark side, which seems to be home to a bizarre 'runaway' process that is transporting vaporised water ice from the dark areas to the white areas of the Saturnian moon.
More Huygens Current Events and Huygens News Articles
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Treatise on Light (Large Print Edition) by Christiaan Huygens (Author) In which are explained The causes of that which occurs In REFLEXION & in REFRACTION; And particularly In the strange REFRACTION OF ICELAND CRYSTAL; Rendered into English by SILVANUS P. THOMPSON |
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Huygens: The Man Behind the Principle by C. D. Andriesse (Author), Sally Miedema (Translator) This biography on Christiaan Huygens (1629-1695) describes in detail how he arrived at discoveries and inventions often wrongly ascribed to Newton. The great seventeenth-century Dutch mathematician and physicist played a key role in the 'scientific revolution' and the Huygens Principle on the wave theory of light helped establish his reputation. Moreover, the discovery of Saturn's rings and the invention of the pendulum clock made him so famous that he was invited to be the first director of the French Academy of Science. |
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Huygens: Pathodia Sacra Et Profana by Anne Grimm, Wilke te Brummelstroete, Nico van der Meel, Peter Kooij, Mieneke van der Velden, Mike Fentross Constantijn Huygens (Composer), None (Composer) |
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Christian Huygens by A.E. Bell (Author) CHRISTIAN HUYGENS AND THE DEVELOPMENT OF SCIENCE IN THE SEVENTEENTH CENTURY By A. E. BELL. PREFACE: THERE can be no doubt that Christian Huygens was one of the greatest scientific geniuses of all time. A man who transformed the telescope from being a toy into a powerful instrument of in vestigation, and this as a consequence of profound optical researches; who discovered Saturn's ring and the satellite Titan; who drew attention to the Nebula in Orion; who studied the prob lem of gravity in a quantitative manner, arriving at correct ideas about the effects of centrifugal force and the shape of the earth; who, in the great work Horologium Oscillatorium, founded the dynamics of systems and cleared up the whole subject of the compound pendulum and the tautochrone; who solved the out standing... |
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Laetatus sum Simon Bowler, Carole Cerasi, Julia Gooding, Christopher Wilson, Constantijn Huygens Paul Agnew (Primary Contributor) |
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Personal Name Gift - "HUYGENS" Set of 4 Mini-Mousepad Coasters (blue design) Protect your furniture with this set of 4 mini-mousepad coasters. Each coaster is 3.5 x 3.5 inches (width & lenght). They are soft top made out of mousepad material (polyester surface, neoprene backing) and work well as coasters. This set has (HUYGENS) printed on it |
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Huygen's Disclosure by Microforum |
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Cassini-Huygens Mouse Pad by welsh |
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Historic Print (XL): [Christiaan Huygens, 1629-1695, bust portrait] by Olde Yankee Map and Photo Shoppe Historic Print (XL): [Christiaan Huygens, 1629-1695, bust portrait] This is a museum quality, reproduction print on premium paper with archival/UV resistant inks. The framed work is single matted (ivory), under acrylic glass, with a hanging wire. Date: 1 photographic print. Subject: SOURCE: Library of Congress |
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