The Huygens chronicles: unveiling Titan.Clutching three black-and-white photographs, Marty Tomasko beamed as he strode into a late-night press briefing on Jan. 14 in Darmstadt, Germany. With a crowd gathering around him at the European Space Agency's operation center, he showed off images taken by the Huygens probe, which just hours before had landed on Saturn's moon Titan. No other humanmade object had ever touched such distant ground. "Everybody was saying 'Congratulations! The images are great!'" recalls Tomasko, a planetary scientist at the University of Arizona (body, education) University of Arizona - The University was founded in 1885 as a Land Grant institution with a three-fold mission of teaching, research and public service. in Tucson. But even as he sipped champagne, Tomasko feared that he might have precious little more to reveal after these few moments of glory. In the best of all possible worlds The phrase "the best of all possible worlds" (French: le meilleur des mondes possibles) was coined by the German philosopher Gottfried Leibniz in his 1710 work Essais de Théodicée sur la bonté de Dieu, la liberté de l'homme et l'origine du mal (Theodicy). , he and his camera team might have already begun to determine the composition of Titan's surface. But because of several malfunctions as the probe descended through Titan's atmosphere and a communications problem with its mother craft, the Cassini orbiter, the data didn't seem to make sense. The spectra taken by Tomasko's cameras looked OK, but the scientists couldn't figure out exactly where the spectrometers had been pointing when the recordings were made. That's because the probe was swinging so violently and the atmosphere was so thick that Huygens' sun sensor couldn't function properly. It had been intended to schedule when spectra were taken and how to orient the spectrometer, with respect to the sun. Furthermore, the parachuting probe had unaccountably un·ac·count·a·ble adj. 1. Impossible to account for; inexplicable: unaccountable absences. 2. reversed its direction of rotation, confounding the task of assembling panoramas of Titan and its atmosphere from the probe's three cameras, each of which pointed in a different direction. Beyond that, half of the 1,200 images relayed by Huygens had been lost because of a major snafu--only one of the two receivers on Cassini had been switched on. Assembling the images into panoramas was "like putting together a jigsaw puzzle when half the pieces are missing," Tomasko recalls. But now, after more than 3 months of painstaking work, scientists are lifting the veil on Titan. Shrouded in hydrocarbon haze and slightly bigger than Mercury, the moon has the largest unexplored surface in the solar system. The Huygen mission team is finding that Titan in part resembles Earth yet is also strikingly alien. Tomasko and other scientists presented some of the new findings in March at the annual Lunar and Planetary Science Conference The Lunar and Planetary Science Conference (LPSC), jointly sponsored by the Lunar and Planetary Institute (LPI) and NASA Johnson Space Center (JSC), brings together international specialists in petrology, geochemistry, geophysics, and astronomy to present the latest results of in Houston. SINGIN' IN THE METHANE Riveting images of Titan's surface show a network of drainage channels, highlands, and perhaps shorelines. The drainage channels, Tomasko notes, are evidence for some kind of precipitation and flowing liquid, most likely methane. Although most of the surface is made of water ice, the pattern of light and dark features indicates the deposition of hydrocarbon goo. Hydrocarbon aerosols fall onto the surface and solidify into a uniform coat of dark, organic gunk, Tomasko says. "But then there's methane rain, which is relatively clear, that washes it off [the highlands], concentrating it in the bottom of the drainage channels and in the flat areas." The Huygens lander discovered the channels, which are about 40 m wide. "To see these drainage channels for the first time--to have [the images] shout 'rain, precipitation, erosion'--it was thrilling," says Tomasko. "We've got the Titan equivalent of what happens on Earth, the erosion of underlying rocky material by streams of liquid," says John Zarnecki of the Open University in Milton Keynes, England. "But the big difference is that the fluid is liquid methane, not water, and instead of silicate silicate, chemical compound containing silicon, oxygen, and one or more metals, e.g., aluminum, barium, beryllium, calcium, iron, magnesium, manganese, potassium, sodium, or zirconium. Silicates may be considered chemically as salts of the various silicic acids. rocks or granite, we have [pebbles made of] water ice." Measurements made by Huygens' gas chromatograph-mass spectrometer are corroborating the abundance of methane at and just beneath Titan's surface. During the first 3 minutes after landfall land·fall n. 1. The act or an instance of sighting or reaching land after a voyage or flight. 2. The land sighted or reached after a voyage or flight. , a heated inlet on the instrument made contact with the surface and vaporized va·por·ize tr. & intr.v. va·por·ized, va·por·iz·ing, va·por·iz·es To convert or be converted into vapor. va material just below the ground. This chromatograph chromatograph /chro·mato·graph/ (kro-mat´o-graf) 1. the apparatus used in chromatography. 2. to analyze by chromatography. chromatograph 1. to analyze by chromatography. 2. recorded a 30 percent jump in methane over that measured in the atmosphere. The sudden increase suggests that Titan has substantial reserves of methane only a few centimeters beneath its surface. What's more, the force of Huygens' impact recorded by a tiny sensor protruding pro·trude v. pro·trud·ed, pro·trud·ing, pro·trudes v.tr. To push or thrust outward. v.intr. To jut out; project. See Synonyms at bulge. from the bottom of the probe, suggests that the craft encountered a hard crust and a mushier interior, notes Zarnecki. The finding is also consistent with methane lurking just beneath an icy carapace carapace (kâr`əpās), shield, or shell covering, found over all or part of the anterior dorsal portion of an animal. In lobsters, shrimps, crayfish, and crabs, the carapace is the part of the exoskeleton that covers the head and thorax . An accelerometer accelerometer Instrument that measures acceleration. Because it is difficult to measure acceleration directly, the device measures the force exerted by restraints placed on a reference mass to hold its position fixed in an accelerating body. on the probe suggests that the landing was not only gentle but that the probe slid or skipped along the surface for a few seconds before coming to a halt. Other sensors indicate that Huygens nestled into the ground at a 10[degrees] tilt and that the probe shifted position slightly during the 70 minutes that Cassini could receive its signals, Zarnecki told Science News. These preliminary findings also point to a subsurface made of a mushy mush·y adj. mush·i·er, mush·i·est 1. Resembling mush in consistency; soft. 2. Informal a. Excessively sentimental. See Synonyms at sentimental. b. material, perhaps methane mixed with grainy grain·y adj. grain·i·er, grain·i·est 1. Made of or resembling grain; granular. 2. Resembling the grain of wood. 3. Having a granular appearance due to the clumping of particles in the emulsion. ice, he says. There's even a hint that methane was raining down when Huygens descended. The ultraviolet spectra taken as the probe parachuted through the atmosphere show a dramatic change 25 kilometers above Titan, the altitude at which methane becomes a major component of the lower atmosphere. The size of aerosol particles increased while their density decreased. The scientists speculate that liquid methane coats the aerosol particles, increasing their girth GIRTH., A girth or yard is a measure of length. The word is of Saxon origin, taken from the circumference of the human body. Girth is contracted from girdeth, and signifies as much as girdle. See Ell. , and also washes out some of the particles, decreasing the aerosol's density. Tomasko notes that his team has yet to analyze spectra using 300 other wavelengths. These data should help clarify what was going on in the atmosphere when Huygens showed up, he says. Rain or no rain, methane on Titan poses a mystery. Although methane is constantly recycled between Titan's atmosphere and its surface, much of it is broken down by sunlight into other hydrocarbons that coalesce co·a·lesce intr.v. co·a·lesced, co·a·lesc·ing, co·a·lesc·es 1. To grow together; fuse. 2. To come together so as to form one whole; unite: into smog. In just a few million years, these sunlight-driven conversions should have depleted de·plete tr.v. de·plet·ed, de·plet·ing, de·pletes To decrease the fullness of; use up or empty out. [Latin d Titan of all its methane, says Toby Owen of the University of Hawaii (body, education) University of Hawaii - A University spread over 10 campuses on 4 islands throughout the state. http://hawaii.edu/uhinfo.html. See also Aloha, Aloha Net. in Honolulu. "Why is the methane still there?" asks Owen. "Why hasn't it disappeared after making all this smog material? Either we're very lucky that we came along [with Huygens] at a time before all the methane was gone or something is replenishing it." Huygens' detection of methane just beneath Titan's surface favors the replenishment scenario. There may be larger liquid reserves even farther down, Owen says. If Titan has enough internal heat, such underground deposits may rise to the surface. The heat could come from gravitational grav·i·ta·tion n. 1. Physics a. The natural phenomenon of attraction between physical objects with mass or energy. b. The act or process of moving under the influence of this attraction. 2. flexing of Titan by Saturn as the moon orbits its mother planet. ABSENCE OF NOBILITY Frigid Titan is the Peter Pan of the solar system. Because Titan is so cold, complex chemistry hasn't modified the moon's components over billions of years. "It's the little world that never grows up" says Owen. Titan is much too cold to support living things as we know them, yet it has two prerequisites for life's formation: organic matter and a thick atmosphere that filters out harmful ultraviolet radiation. "There's a basic notion that by exploring Titan, we can travel back in time to Earth nearly 4 billion years ago," just before life arose, says Owen. "We can look at a very primitive environment that has been preserved here for us today, where some of the kinds of processes that happened on the early Earth are still taking place," he says. Using the Huygens data to characterize those processes on Titan has been slow going, in part because signals from the gas chromatograph have been difficult to interpret. Even so, Owen and his colleagues have eked out several new findings. Huygens failed to detect an abundance of some materials that scientists had predicted would be present. In one case, hypotheses from more than a decade ago suggested that when sunlight breaks down methane gas in Titan's atmosphere, most of the fragments combine to make ethane ethane (ĕth`ān), CH3CH3, gaseous hydrocarbon. It is a continuous-chain alkane. As a constituent of natural gas, it is used for fuel. It can be prepared by cracking and fractional distillation of petroleum. , which is one chemical notch up in size and complexity from methane. Ethane aerosol particles would settle on the surface, where they could easily be identified by the Huygens' mass spectrometer. But when the probe landed, it recorded only tiny amounts of ethane. This indicates that "the early photochemicals models suggesting that ethane was the end point in the atmospheric photochemistry photochemistry, study of chemical processes that are accompanied by or catalyzed by the emission or absorption of visible light or ultraviolet radiation. A molecule in its ground (unexcited) state can absorb a quantum of light energy, or photon, and go to a were wrong," says Owen. "There must be further processing to more-complex hydrocarbons like benzene." Yet so far, the surface compounds identified by the gas chromatograph are the same as those detected in the upper atmosphere, which had been characterized by an infrared spectrometer on the orbiting Cassini spacecraft. "We are still looking for Looking for In the context of general equities, this describing a buy interest in which a dealer is asked to offer stock, often involving a capital commitment. Antithesis of in touch with. evidence of more-complex [chemical] species" on the surface, notes Owen. In another case of missing materials, Huygens found no trace of any noble gases, such as neon and xenon xenon (zē`nŏn) [Gr.,=strange], gaseous chemical element; symbol Xe; at. no. 54; at. wt. 131.29; m.p. −111.9°C;; b.p. −107.1°C;; density 5.86 grams per liter at STP; valence usually 0. , on Titan, despite their prevalence on Mars, Venus, and Earth and in comets. That's a puzzle because half of Titan is made of ice, and ice at low temperatures acts as an efficient trap for the noble gases. "Not finding those noble gases is a clue to Titan's formation," Owen says. Indeed, he now proposes that the moon formed under warmer conditions, much closer to its mother planet Saturn, than planetary scientists had suggested. He notes that below 80 kelvins, water ice has structural features that trap noble gases. At temperatures above 80 K, however, laboratory experiments show that ice doesn't hold these gases nearly as well. Researchers had previously proposed that Titan coalesced co·a·lesce intr.v. co·a·lesced, co·a·lesc·ing, co·a·lesc·es 1. To grow together; fuse. 2. To come together so as to form one whole; unite: from bits of ice and rock in a cold region, far from Saturn, and migrated toward the planet. But formation in a more temperate zone nearer to Saturn may be the only way that ice could have remained at temperatures too warm to trap the noble gases, notes Owen. The absence of noble gases may also shed light on the origin of Titan's atmosphere. Molecular nitrogen now accounts for 95 percent of that atmosphere, but several lines of indirect evidence indicate that the nitrogen didn't come to Titan in its molecular form. If Titan's nitrogen didn't start out as [N.sub.2], the most likely source for nitrogen is ammonia (N[H.sub.3]), says Owen. Simulations of the early solar system indicate that ammonia was a common ingredient in the particles of ice and rock that collected close to Saturn during its formation. If Titan coalesced near Saturn, as Owen proposes, the fledgling moon could have easily incorporated ammonia. No one has yet found signs of ammonia in the Huygens data. But a storehouse of the material deeper within Titan could account for features seen in radar images recently taken by the orbiting Cassini spacecraft, says Jonathan Lunine of the University of Arizona. The radar images show surface features reminiscent of lava flows on Earth. Titan was never warm enough for molten rock to erupt, but volcanic eruptions volcanic eruptions discharging of fumes, dust and lava from volcanoes. They have damaging potential in addition to those of being physically overpowering by the lava flow or the ash or dust fallout. of water-ice and ammonia could be common, says Lunine. The presence of ammonia could spawn icy volcanism volcanism or vulcanism Any of various processes and phenomena associated with the surface discharge of molten rock or hot water and steam, including volcanoes, geysers, and fumaroles. in several ways, he notes. For starters, ammonia acts as an antifreeze antifreeze, substance added to a solvent to lower its freezing point. The solution formed is called an antifreeze mixture. Antifreeze is typically added to water in the cooling system of an internal-combustion engine so that it may be cooled below the freezing point , lowering the melting point of water by 100[degrees]C. As a result, less energy is required for an eruption to occur. Adding ammonia to liquid water also makes it more buoyant than water-ice, enabling the mixture to rise to the surface more easily. Finally, the addition of ammonia to liquid water creates a more viscous fluid, similar to lava. FLOATING ON TITAN Even before Huygens landed, planetary scientists were thinking about future visits to Titan's surface. The mission's success has fueled those ambitions. The next lander on Titan would stay much longer than just a few hours and would probably have the capability of traveling from place to place. With Titan's thick atmosphere and low gravity, "the place just cries out" for an airship airship, an aircraft that consists of a cigar-shaped gas bag, or envelope, filled with a lighter-than-air gas to provide lift, a propulsion system, a steering mechanism, and a gondola accommodating passengers, crew, and cargo. , says Torrence Johnson of NASA's Jet Propulsion Laboratory “JPL” redirects here. For other uses, see JPL (disambiguation). Jet Propulsion Laboratory (JPL) is a NASA research center located in the cities of Pasadena and La Cañada Flintridge, near Los Angeles, California, USA. in Pasadena, Calif. The craft could float along, landing on a variety of intriguing sites. "There's no question that we have to go back to Titan," says Zarnecki. For now, he notes, the Huygens data occupy most of his time. But when he has a moment to relax, he looks back to the night of Jan. 14. At the operations center in Darmstadt, "there was a terrible time waiting for science data that was supposed to be coming," he recalls. "For 4, 5, 6 minutes, we were essentially looking at a blank screen. Then, those green figures lit up." From there, he says, "everything just took off, and it was fabulous. "It made everything in the past 15 years seem worthwhile," says Zarnecki. |
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