Outbound View of Saturn After Initial Orbit

A frigid ball of gas in the blackness of space, Cassini?s new home appears cool and serene in this natural color image.

The spacecraft obtained this view as it sped outward from the planet on its initial orbit. At left, Saturn?s shadow stretches almost completely across the rings, while at right the planet?s illuminated face appears to gaze down at the far-off Sun.

Images taken through blue, green and red filters with the wide angle camera were combined to create this natural color view. The images were taken on July 17, 2004, from a distance of about 5.8 million kilometers (3.6 million miles) from Saturn and at a Sun-Saturn-spacecraft, or phase, angle of 93 degrees. The image scale is 346 kilometers (215 miles) per pixel.

The Cassini-Huygens mission is a cooperative project of NASA, the European Space Agency and the Italian Space Agency. The Jet Propulsion Laboratory, a division of the California Institute of Technology in Pasadena, manages the Cassini-Huygens mission for NASA’s Office of Space Science, Washington, D.C. The imaging team is based at the Space Science Institute, Boulder, Colorado.

For more information about the Cassini-Huygens mission, visit http://saturn.jpl.nasa.gov and the Cassini imaging team home page, http://ciclops.org.

Cassini Sees Lightning on Saturn

The Cassini spacecraft, which began its tour of the Saturn system just over a month ago, has detected lightning and a new radiation belt at Saturn, and a glow around the planet’s largest moon, Titan.

The spacecraft’s radio and plasma wave science instrument detected radio waves generated by lightning. “We are detecting the same crackle and pop one hears when listening to an AM radio broadcast during a thunderstorm,” said Dr. Bill Kurth, deputy principal investigator on the radio and plasma wave instrument, University of Iowa, Iowa City. “These storms are dramatically different than those observed 20 years ago.”

Cassini finds radio bursts from this lightning are highly episodic. There are large variations in the occurrence of lightning from day to day, sometimes with little or no lightning, suggesting a number of different, possibly short-lived storms at middle to high latitudes. Voyager observed lightning from an extended storm system at low latitudes, which lasted for months and appeared highly regular from one day to the next.

The difference in storm characteristics may be related to very different shadowing conditions in the 1980s than are found now. During the Voyager time period when lightning was first observed, the rings cast a very deep shadow near Saturn’s equator. As a result, the atmosphere in a narrow band was permanently in shadow — making it cold — and located right next to the hottest area in Saturn’s atmosphere. Turbulence between the hot and cold regions could have led to long-lived storms. However, during Cassini’s approach and entry into Saturn’s orbit, it is summer in the southern hemisphere and the ring shadow is distributed widely over a large portion of the northern hemisphere, so the hottest and coldest regions are far apart.

A major finding of the magnetospheric imaging instrument is the discovery of a new radiation belt just above Saturn’s cloud tops, up to the inner edge of the D-ring. This is the first time that a new Saturnian radiation belt has been discovered with remote sensing.

This new radiation belt extends around the planet. It was detected by the emission of fast neutral atoms created as its magnetically trapped ions interact with gas clouds located planetward of the D-ring, the innermost of Saturn’s rings. With this discovery, the radiation belts are shown to extend far closer to the planet than previously known.

“This new radiation belt had eluded detection by any of the spacecraft that previously visited Saturn. With its discovery we have seen something that we did not expect, that radiation belt particles can ‘hop’ over obstructions like Saturn’s rings, without being absorbed by the rings in the process,” said Dr. Donald G. Mitchell, instrument scientist for the magnetospheric imaging instrument at the Johns Hopkins University Applied Physics Laboratory, Laurel, Md.

Saturn’s largest moon, Titan, is also shining for attention. Cassini’s visual and infrared mapping spectrometer captured Titan glowing both day and night, powered by emissions from methane and carbon monoxide gases in the moon’s extensive, thick atmosphere.

“Not only is Titan putting on a great light show but it is also teaching us more about its dense atmosphere,” said Dr. Kevin Baines, science team member for the visual and infrared mapping spectrometer at JPL. “What is amazing is that the size of this glow or emission of gases is a sixth the diameter of the planet.”

The Sun-illuminated fluorescent glow of methane throughout Titan’s upper atmosphere ? revealing the atmosphere’s immense thickness and extending more than 700 kilometers (435 miles) above the surface, was expected. However, the nighttime glow, persistently shining over the night side of Titan, initially surprised scientists.

“These images are as if you were seeing Titan through alien eyes. Titan glows throughout the near-infrared spectrum. If you were an alien it would be hard to get a good night’s sleep on Titan because the light would always be on,” said Baines.

The Cassini-Huygens mission is a cooperative project of NASA, the European Space Agency and the Italian Space Agency. The Jet Propulsion Laboratory, a division of the California Institute of Technology in Pasadena, manages the Cassini-Huygens mission for NASA’s Science Mission Directorate, Washington, D.C. JPL designed, developed and assembled the Cassini orbiter.

For the latest images and more information about the Cassini- Huygens mission, visit http://saturn.jpl.nasa.gov and http://www.nasa.gov/cassini.

Original Source: NASA/JPL News Release

Proton Launches Amazonas Satellite

A Proton rocket launched by International Launch Services (ILS) successfully carried the Amazonas satellite into orbit today.

The 191-foot-tall (58.2-meters) vehicle lifted off at 4:32 a.m. from Baikonur (6:32 p.m. EDT Wednesday, 22:32 GMT Wednesday). The rocket?s Breeze M upper stage placed the satellite into a transfer orbit 9 hours and 11 minutes later.

The launch vehicle was built by Khrunichev State Research and Production Space Center of Moscow, a partner in the ILS joint venture along with Lockheed Martin Corp. [NYSE:LMT]. This was the third Proton launch of the year for ILS, and the seventh mission overall for the company in 2004.

The satellite was built for Hispasat of Spain, and will be used by its subsidiaries Hispamar of Brazil and Hispasat Canarias to provide a multitude of communications services at both C- and Ku-band on both sides of the Atlantic Ocean. When it reaches its operating position of 61 degrees West longitude, the Amazonas satellite will be the largest in the Hispasat fleet. The high-power satellite is a Eurostar E3000 model built by EADS Astrium of Europe, the third E3000 spacecraft launched by ILS this year.

?We thank Hispasat for again selecting an ILS vehicle,? said ILS President Mark Albrecht. ?We have demonstrated that Hispasat can rely on us for a good launch, whether they choose Proton, or whether they choose Atlas as they have twice before.?

Albrecht added that the Proton vehicle has now completed five missions this year, three for ILS and two for the Russian government. ?We call this the workhorse of the Russian fleet, because it flies so often and so reliably. Everyone from start-up businesses to telecommunications giants to participants in the International Space Station have put their trust in Proton,? he said. ?ILS is proud to market this vehicle for commercial satellite launches.?

“This is a major milestone for EADS Astrium, with Amazonas being the third Eurostar E3000 version satellite to be launched this year by a Proton Breeze M launcher from ILS,” said Antoine Bouvier, CEO of EADS Astrium. ?Amazonas is the most powerful satellite ordered by Hispasat. The satellite was delivered in time, which was very important. This satellite is equipped with a new lithium-ion battery offering higher efficiency. All our teams in Europe were mobilized to make this event a success.?

ILS has established itself as the indisputable launch services leader by offering the industry’s two best launch systems: Proton and the Lockheed Martin-built Atlas. With a remarkable launch rate of 65 missions since 2000, the Atlas and Proton launch vehicles have consistently demonstrated the reliability and flexibility that have made them the vehicles of choice. Since the beginning of 2003, ILS has signed more new commercial contracts than all its competitors combined. ILS was formed in 1995, and is based in McLean, Va., a suburb of Washington, D.C.

Original Source: ILS News Release

da Vinci Project Announces X Prize Attempt

The Canadian da Vinci Project Team has notified the ANSARI X PRIZE of its intention to launch its rocket on October 2nd, 2004, marking its official entry in the international, commercially-funded space race competition.

The da Vinci Project, which unveiled its rocket Wild Fire today, joins one American team — in a field of 26 — to announce its launch date. “With two ANSARI X PRIZE teams launching within days of each other for the $10 million prize (U.S.), we truly have a remarkable race for space,” said Dr. Peter H. Diamandis, Chairman and Founder of the X PRIZE Foundation. The recipient of the $10 million prize will be the first team to travel safely to space twice within a two-week period on a privately funded, re-useable spacecraft.

Brian Feeney, who plans to pilot Wild Fire approximately 85 kilometers into suborbital space, said the team is finalizing construction of the rocket as well as logistical details related to the event, which will be held in Kindersley, Saskatchewan.

“We’re very close to achieving our mission, thanks to the organizations and individuals that understand the significance of this race,” said Feeney. “The da Vinci Project is on the cusp of a new era of space travel for humankind. Our team is proof positive that ingenuity and innovation can overcome the impossible.”

In addition, Feeney announced a new sponsor to finance the project. Golden Palace.Com, the world’s largest online casino, has signed on as the title sponsor. The Golden Palace.Com Space Program — Powered By The da Vinci Project — is poised to make history.

According to sources at the casino, GoldenPalace.com is excited and very proud to be a part of the historic flight of the Wild Fire. In the continuing pursuit for innovative ideas for exposure, Golden Palace sources believes the ANSARI X Prize competition provides the advertising exposure as well as the added incentive of a history-making event that will eventually serve to benefit all humankind.

The da Vinci Project, which Feeney describes as the largest volunteer technology project in Canada, has achieved several critical milestones since officially entering the competition in 1996. These milestones have included the filing of necessary papers to Canadian government for launch approval; securing the site for launch; the testing of engine components; testing the design and securing a wide range of sponsors including Sun Microsystems of Canada, Blake Cassels Graydon, ANSYS, Hinz Automation and Kindersley Transport.

“The da Vinci Project is emblematic of the spirit of the ANSARI X PRIZE,” said Diamandis. “It brings together many of the best and brightest to break down preconceived notions on space travel and prove that we are no longer bound to one planet.”

The X PRIZE Foundation is working with the Federation Aeronautique Internationale (FAI), the international body responsible for all aviation and space world records, to ensure that the ANSARI X PRIZE winner will also receive official international recognition for his achievement. In addition to duration, altitude and distance, the FAI has introduced new world record categories for ‘minimum time between two consecutive sub-orbital flights in a reusable vehicle’ and ‘number of persons carried in sub-orbital flight’.

Original Source: da Vinci Project News Release

Wallpaper: NGC 3949

Our Sun and solar system are embedded in a broad pancake of stars deep within the disk of the Milky Way galaxy. Even from a distance, it is impossible to see our galaxy’s large-scale features other than the disk.

The next best thing is to look farther out into the universe at galaxies that are similar in shape and structure to our home galaxy. Other spiral galaxies like NGC 3949, pictured in the Hubble image, fit the bill. Like our Milky Way, this galaxy has a blue disk of young stars peppered with bright pink star-birth regions. In contrast to the blue disk, the bright central bulge is made up of mostly older, redder stars.

NGC 3949 lies about 50 million light-years from Earth. It is a member of a loose cluster of some six or seven dozens of galaxies located in the direction of the Big Dipper, in the constellation Ursa Major (the Great Bear). It is one of the larger galaxies of this cluster.

This image was created from Hubble data taken with the Wide Field Planetary Camera 2 in October 2001. Separate exposures through blue, visible, and near-infrared filters have been combined to make the natural color picture. This image was produced by the Hubble Heritage Team (STScI).

Original Source: Hubble News Release

Slides on Olympus Mons

This image from ESA’s Mars Express show the western flank of the shield volcano Olympus Mons in the Tharsis region of the western Martian hemisphere.

The image was taken by the High Resolution Stereo Camera (HRSC) during orbit 143 from an altitude of 266 kilometres. It were taken with a resolution of about 25 metres per pixel and is centred at 222? East and 22? North. North is to the left.

The image shows the western part of the escarpment, rising from the surface level to over 7000 metres. In the foreground, part of the extensive plains west of the escarpment are shown, known as an ‘aureole’ (from the Latin for ‘circle of light’).

To the north and west of the volcano, these ‘aureole’ deposits are regions of gigantic ridges and blocks extending some 1000 kilometres from the summit like petals of a flower. An explanation for the origin of the deposits has challenged planetary scientists for decades.

The most persistent explanation, however, has been landslides. Large masses of shield material can be found in the aureole area. Several indications also suggest a development and resurfacing connected to glacial activity.

Original Source: ESA News Release

Closer, Dimmer Gamma Ray Burst Spotted

A gamma-ray burst detected by ESA’s Integral gamma-ray observatory on 3 December 2003 has been thoroughly studied for months by an armada of space and ground-based observatories. Astronomers have now concluded that this event, called GRB 031203, is the closest cosmic gamma-ray burst on record, but also the faintest. This also suggests that an entire population of sub-energetic gamma-ray bursts has so far gone unnoticed…

Cosmic gamma-ray bursts (GRBs) are flashes of gamma rays that can last from less than a second to a few minutes and occur at random positions in the sky. A large fraction of them is thought to result when a black hole is created from a dying star in a distant galaxy. Astronomers believe that a hot disc surrounding the black hole, made of gas and matter falling onto it, somehow emits an energetic beam parallel to the axis of rotation.

According to the simplest picture, all GRBs should emit similar amounts of gamma-ray energy. The fraction of it detected at Earth should then depend on the ‘width’ (opening angle) and orientation of the beam as well as on the distance. The energy received should be larger when the beam is narrow or points towards us and smaller when the beam is broad or points away from us. New data collected with ESA’s high energy observatories, Integral and XMM-Newton, now show that this picture is not so clear-cut and that the amount of energy emitted by GRBs can vary significantly. “The idea that all GRBs spit out the same amount of gamma rays, or that they are ‘standard candles’ as we call them, is simply ruled out by the new data,” said Dr Sergey Sazonov, from the Space Research Institute of the Russian Academy of Sciences, Moscow (Russia) and the Max-Planck Institute for Astrophysics, Garching near Munich (Germany).

Sazonov and an international team of researchers studied the GRB detected by Integral on 3 December 2003 and given the code-name of GRB 031203. Within a record 18 seconds of the burst, the Integral Burst Alert System had pinpointed the approximate position of GRB 031203 in the sky and sent the information to a network of observatories around the world. A few hours later one of them, ESA’s XMM-Newton, determined a much more precise position for GRB 031203 and detected a rapidly fading X-ray source, which was subsequently seen by radio and optical telescopes on the ground.

This wealth of data allowed astronomers to determine that GRB 031203 went off in a galaxy less than 1300 million light years away, making it the closest GRB ever observed. Even so, the way in which GRB 031203 dimmed with time and the distribution of its energy were not different from those of distant GRBs. Then, scientists started to realise that the concept of the ‘standard candle’ may not hold. “Being so close should make GRB 031203 appear very bright, but the amount of gamma-rays measured by Integral is about one thousand times less than what we would normally expect from a GRB,” Sazonov said.

A burst of gamma rays observed in 1998 in a closer galaxy appeared even fainter, about one hundred times less bright than GRB 031203. Astronomers, however, could not conclusively tell whether that was a genuine GRB because the bulk of its energy was emitted mostly as X-rays instead of gamma-rays. The work of Sazonov’s team on GRB 031203 now suggests that intrinsically fainter GRBs can indeed exist.

A team of US astronomers, coordinated by Alicia Soderberg from the California Institute of Technology, Pasadena (USA), studied the ‘afterglow’ of GRB 031203 and gave further support to this conclusion. The afterglow, emitted when a GRB’s blastwave shocks the diffuse medium around it, can last weeks or months and progressively fades away. Using NASA’s Chandra X-ray Observatory, Soderberg and her team saw that the X-ray brightness of the afterglow was about one thousand times fainter than that of typical distant GRBs. The team’s observations with the Very Large Array telescope of the National Radio Astronomy Observatory in Socorro (USA) also revealed a source dimmer than usual.

Sazonov and Soderberg explain that their teams looked carefully for signs that GRB 031203 could be tilted in such a way that most of its energy would escape Integral’s detection. However, as Sazonov said, “the fact that most of the energy that we see is emitted in the gamma-ray domain, rather than in the X-rays, means that we are seeing the beam nearly on axis.” It is, therefore, unlikely that much of its energy output can go unnoticed.

This discovery suggests the existence of a new population of GRBs much closer but also dimmer than the majority of those known so far, which are very energetic but distant. Objects of this type may also be very numerous and thus produce more frequent bursts.

The bulk of this population has so far escaped our attention because it lies at the limit of detection with past and present instruments. Integral, however, may be just sensitive enough to reveal a few more of them in the years to come. These could be just the tip of the iceberg and future gamma-ray observatories, such as the planned NASA’s Swift mission, should be able to extend this search to a much larger volume of the Universe and find many more sub-energetic GRBs.

Original Source: ESA News Release

Rosetta’s View of Our Home

Image credit: ESA
This image, taken by ESA?s Rosetta comet-chaser spacecraft, shows the Earth-Moon system from a distance of 70 million kilometres. This is close to the maximum distance reached by the spacecraft so far this year.

However, this is a tiny distance compared to Rosetta?s epic journey when, in 10 years time, it will have travelled distances of over one thousand million kilometres from Earth, and about 800 million kilometres from the Sun, to meet Comet 67P/Churyumov-Gerasimenko.

This image was taken by the Navigation Camera System (NAVCAM) on board the Rosetta spacecraft, activated for the first time on 25 July 2004. This system, comprising two separate independent camera units (for back-up), will help to navigate the spacecraft near the comet nucleus. The cameras perform both as imaging cameras and star sensors, and switch functions by means of a refocusing system in front of the first lens.

At the comet, extremely high-precision measurements of the relative distance and velocity (between spacecraft and nucleus) will be needed. These are not achievable with the ground-based methods normally used with all other spacecraft or for normal Rosetta trajectory determinations.

In the meantime though, the cameras can also be used to automatically track the two asteroids that Rosetta will be visiting during its long cruise, Steins and Lutetia.

Original Source: ESA News Release

A View of Hurricane Alex

NASA’s Terra satellite captured this true-color image of Hurricane Alex, the first Atlantic hurricane of the season, at noon EDT on Tuesday, August 3. Around that time, the Category 2 storm was pounding North Carolina’s Outer Banks with winds of up to 100 miles an hour. It’s expected to eventually turn east and head out to sea.

The resolution on this photo, from Terra’s Moderate Resolution Imaging Spectroradiometer (MODIS), is 2 kilometers per pixel.

Original Source: NASA News Release

Our Solar System Could Be Special

On the evidence to date, our solar system could be fundamentally different from the majority of planetary systems around stars because it formed in a different way. If that is the case, Earth-like planets will be very rare. After examining the properties of the 100 or so known extrasolar planetary systems and assessing two ways in which planets could form, Dr Martin Beer and Professor Andrew King of the University of Leicester, Dr Mario Livio of the Space Telescope Science Institute and Dr Jim Pringle of the University of Cambridge flag up the distinct possibility that our solar system is special in a paper to be published in the Monthly Notices of the Royal Astronomical Society.

In our solar system, the orbits of all the major planets are quite close to being circular (apart from Pluto’s, which is a special case), and the four giant planets are a considerable distance from the Sun. The extrasolar planets detected so far – all giants similar in nature to Jupiter ? are by comparison much closer to their parent stars, and their orbits are almost all highly elliptical and so very elongated.

“There are two main explanations for these observations,” says Martin Beer. “The most intriguing is that planets can be formed by more than one mechanism and the assumption astronomers have made until now – that all planets formed in basically the same way – is a mistake.”

In the picture of planet formation developed to explain the solar system, giant planets like Jupiter form around rocky cores (like the Earth), which use their gravity to pull in large quantities of gas from their surroundings in the cool outer reaches of a vast disc of material. The rocky cores closer to the parent star cannot acquire gas because it is too hot there and so remain Earth-like.

The most popular alternative theory is that giant planets can form directly through gravitational collapse. In this scenario, rocky cores – potential Earth-like planets – do not form at all. If this theory applies to all the extrasolar planet systems detected so far, then none of them can be expected to contain an Earth-like planet that is habitable by life of the kind we are familiar with.

However, the team are cautious about jumping to a definite conclusion too soon and warn about the second possible explanation for the apparent disparity between the solar system and the known extrasolar systems. Techniques currently in use are not yet capable of detecting a solar-system look-alike around a distant star, so a selection effect might be distorting the statistics – like a fisherman deciding that all fish are larger than 5 inches because that is the size of the holes in his net.

It will be another 5 years or so before astronomers have the observing power to resolve the question of which explanation is correct. Meanwhile, the current data leave open the possibility that the solar system is indeed different from other planetary systems.

Original Source: RAS News Release