Sunlight reflection confirms presence of liquid on Saturn”s moon Titan

May 6, 2010 By Leave a Comment

Washington, May 6 (ANI): NASA”s Cassini Spacecraft has captured a glint of light reflecting from the surface of Saturn”s moon Titan, which confirms the presence of a lake filled with liquid.

The discovery makes Titan the only place besides Earth known to have a body of liquid on its surface.

Stephan et al. report the first detection of a directly visible glint, also called a specular reflection, which occurs when sunlight reflects off a smooth, mirror-like liquid surface.

NASA”s Cassini Spacecraft captured an image of the glint on 8 July 2009, and the researchers determined that it came from Kraken Mare, a large, lake-shaped basin near Titan”s north pole.

Until recently the northern polar regions of Titan had been in winter darkness since Cassini”s arrival in 2004; the recent direct illumination by sunlight made it possible to observe these optical reflections for the first time. (ANI)

Filed Under: International News Tagged With: , , , , , , , , , , , , , , , , , , ,

Hindus upset with West’s fixation just on sex in Tantra

April 5, 2010 By Leave a Comment

Nevada (US), April 5 (ANI): Tantra is reportedly becoming quite popular in North America and Europe and Hindus are strongly critical of such self-styled “tantrics” who apparently think and describe of Tantra as just sex.

Acclaimed Hindu statesman Rajan Zed, in a statement in Nevada (USA) today, said that Tantrism was a major channel in Indian religious traditions and besides Hinduism, it also exerted considerable influence on Buddhism and Jainism. Sankaracharya had mentioned the names of 64 Tantras.

Rajan Zed, who is president of Universal Society of Hinduism, pointed out that Tantra, a method of spiritual self-culture, was divine revelation whose history went back to fourth century.

Tantra was a conscious approach to self-discovery which directed the seeker to prepare mind and body to the level where it could withstand any turbulence, both inner as well as outer.

Tantras noted three unique states of sadhana (spiritual endeavor)-purification, illumination, and unification. (ANI)

Filed Under: International News Tagged With: , , , ,

Tim Burton to direct 3-D version of The Addams Family?

March 19, 2010 By Leave a Comment

London, Mar 19 (ANI): Film director Tim Burton is reportedly planning on bringing a new animated 3-D version of The Addams Family.

Burton, 51, is hoping the groundbreaking movie technique will resurrect the spooky Addams Family, who last appeared on the big screen in 1993’s Addams Family Values, reports the Daily Express.

And according to Deadline.com, Illumination Entertainment has acquired the rights to the original cartoons by Charles Addams, and the company’s boss Chris Meledandri will act as the producer.

Burton has enjoyed huge success with his previous animated features, and his latest 3-D version of Lewis Carroll’s classic ‘Alice In Wonderland’ is said to have pulled in 130.4 million pounds during its two-week run at the box office. (ANI)

Filed Under: International News Tagged With: , , , , , , , , , , , , , , , , ,

Findings from India’s Chandrayaan to provide new understanding of lunar surface

September 19, 2009 By Leave a Comment

London, September 18 (ANI): India’s Chandrayaan-1 X-ray Spectrometer (C1XS) has gathered data for a total of 30 solar flares, giving the most accurate measurements to date of magnesium, aluminum, silicon, calcium, and iron in the lunar surface.

Although contact was lost with Chandrayaan-1 last month, the enhanced performance of the C1XS instrument, which exceeded its design specification, means that the science team will be able to determine the geochemistry of new areas of the lunar surface, adding some vital pieces to the jigsaw of the mineralogy of the lunar surface.

The miniature C1XS instrument investigated the lunar surface using an effect whereby X-ray illumination from the Sun causes rocks to fluoresce, emitting light at a different wavelength.

This re-emitted light contains spectral peaks that are characteristic of elements contained in the rock, revealing its composition.

Solar flares act like a flash bulb, giving added illumination and allowing C1XS to ‘see’ more elements.

During normal conditions, C1XS could detect magnesium, aluminum, and silicon and collected data on the levels of these elements, enabling detailed mapping of areas of the lunar surface during its operational period.

During the 30 solar flares, C1XS detected calcium and iron (and sometimes titanium, sodium, and potassium) in key areas in the southern hemisphere and on the far side of the Moon.

The spectral resolution of 50 km was much better than previous missions.

According to Professor Grande, “The C1XS team will be analyzing the data collected during the Chandrayaan-1 mission over the next few months, and the results will help us further our knowledge of the Moon and planetary formation.”

In addition, the design of the instrument has been proved very successful in that it withstood passage through the Earth’s radiation belts and went on to produce these wonderful high-resolution spectra. We were able to separate clear peaks for each of the target elements, allowing us not only to identify where they are present but give an accurate estimate for how much is there,” he said.

“The technology developed for C1XS opens up some exciting opportunities for future missions,” he added. (ANI)

Filed Under: Uncategorized Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

Scientists use titanium dioxide nanoparticles to kill cancer cells, sparing healthy ones

August 20, 2009 By Leave a Comment

Washington, August 20 (ANI): Scientists in America have developed a way to target brain cancer cells using inorganic titanium dioxide nanoparticles bonded to soft biological material.

This achievement is a result of the joint efforts of scientists from the U.S. Department of Energy’s (DOE) and the University of Chicago’s Brain Tumor Center.

Thousands of people die from malignant brain tumours every year, and the tumors are resistant to conventional therapies.

The researchers say that their nano-bio technology may eventually provide an alternative form of therapy, which targets only cancer cells and does not affect normal living tissue.

“It is a real example of how nano and biological interfacing can be used for biomedical application. We chose brain cancer because of its difficulty in treatment and its unique receptors,” said scientist Elena Rozhkova with the DOE’s Argonne National Laboratory.

The novel approach relies upon a two-pronged approach.

The researchers describe titanium dioxide as a versatile photoreactive nanomaterial that can be bonded with biomolecules.

When linked to an antibody, they say, nanoparticles recognize and bind specifically to cancer cells.

When focused visible light is shined onto the affected region, the researchers add, the localized titanium dioxide reacts to the light by creating free oxygen radicals that interact with the mitochondria in the cancer cells.

Mitochondria act as cellular energy plants, and when free radicals interfere with their biochemical pathways, mitochondria receive a signal to start cell death.

“The significance of this work lies in our ability to effectively target nanoparticles to specific cell surface receptors expressed on brain cancer cells,” said Dr. Maciej S. Lesniak, Director of Neurosurgical Oncology at University of Chicago Brain Tumor Center.

“In so doing, we have overcome a major limitation involving the application of nanoparticles in medicine, namely the potential of these agents to distribute throughout the body. We are now in a position to develop this exciting technology in preclinical models of brain tumours, with the hope of one day employing this new technology in patients,” Lesniak added.

Using X-ray fluorescence microscopy at Argonne’s Advanced Photon Source, the researchers have also found that the tumours’ invadopodia, actin-rich micron scale protrusions that allow the cancer to invade surrounding healthy cells, can be also attacked by the titanium dioxide.

The researchers have thus far carried out tests on cells in a laboratory setting, but animal testing is planned for the next phase.

Results show an almost 100 percent cancer cell toxicity rate after six hours of illumination, and 80 percent after 48 hours.

Also, since the antibody only targets the cancer cells, surrounding healthy cells are not affected, unlike other cancer treatments such as chemotherapy and radiotherapy.

Rozhkova said that a proof of concept is demonstrated, and other cancers can be treated as well using different targeting molecules.

The expert, however, admits that the research is presently in the early stages. (ANI)

Filed Under: Health News Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

New look for Asia’s largest rose garden

July 10, 2009 By Leave a Comment

Chandigarh, July 9 (IANS) The Zakir Hussain Rose Garden here, which the union territory administration says is Asia’s largest rose garden, will soon have a new, refurbished look with new varieties of flowers and more amenities to attract tourists, officials said.
The Chandigarh administration has prepared an exhaustive roadmap to upgrade the garden, to attract more foreign and domestic tourists.

“The rose garden is the prime tourist spot for the city and there is need to renovate it. Our new plan focuses on breaking the old-fashioned and stereotype planning through additions of new varieties of exotic flowers, creating a back-up system and landscaping, combined with recreational aspects,” Chandigarh Finance Secretary Sanjay Kumar said here Thursday.

“Innovative ideas would be used to arouse curiosity amongst the residents and visitors. New concept sections of roses would be added, which would be named after great world personalities and countries,” he said, adding efforts were on to develop a section called “Pride of India” with exclusive collection of roses evolved in India.

The rose garden, spread over 30 acres, has nearly 2,000 varieties of roses and an assortment of medicinal plants.

The administration also aims to have a back-up system, as for the major part of the year, no roses flower in the garden, and therefore, a separate rose varieties bank would be set up.

“The ministry of tourism has already sanctioned a grant of Rs. 26.9 million (Rs. 2.69 crore) for Rose Garden which would be utilised for purchasing of new rose varieties, development of rose nursery, a library and a tourist information centre. A huge chunk of this grant will be spent to install fountains and for better illumination of the garden for the night tourism dimensions,” Sanjay Kumar said.

Filed Under: International News Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

New analytical technique to recognize archaeological material and fake masterpieces

July 2, 2009 By Leave a Comment

Washington, July 2 (ANI): Dutch researcher Laurens van der Maaten has developed a new analytical technique that enables the computer to recognize archaeological material and fake works of art.

According to a report in www.physorg.com, the technique not only enables the computer to better interpret the content of photos and images, but also of data.

The ‘proof of the pudding’ of der Maaten’s technique for automatic image analysis is a system for the automatic analysis and recognition of archaeological material such as pottery, Roman coins and glass from the Middle Ages.

Van der Maaten has also successfully used the technique to distinguish forgeries and paintings by contemporaries of Van Gogh from paintings by Van Gogh himself.

One of the challenges Van der Maaten faced was the large number of pixels, and thus the high dimensionality of image-space representations.

Another major challenge was the variation of images resulting from changes in illumination, rotations or changes of scale of the object.

Van der Maaten was able to alleviate these problems by testing new techniques in visualization experiments and then extrapolating those techniques and re-testing them in a number of variants.

The technique was developed for automatic image analysis in the cultural heritage sector.

For example, it can be used for the computer analysis of ancient coins, seeds obtained from archaeological excavations or Van Gogh paintings.

Yet Van der Maaten’s research can also be applied to non-visual collections of high-dimensional data, such as the datasets of Statistics Netherlands or the historical radio addresses made by Queen Wilhelmina during WWII.

Van der Maaten conducted his research as part of the CATCH project RICH (Reading Images in the Cultural Heritage), which is geared to automatic image recognition of archaeological objects. (ANI)

Filed Under: Uncategorized Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

Bandra Worli sea link – Bandra-Worli sea link Inauguration – Sonia Gandhi inaugurates Bandra-Worli sea link

June 30, 2009 By Leave a Comment

Bandra Worli sea link – Bandra-Worli sea link Inauguration – Sonia Gandhi inaugurates Bandra-Worli sea link

bandra worli sea link bandra worli sea link pictures, bandra worli sea link opening, bandra worli sea link photos, bandra worli sea link project, bandra worli sea link inauguration

The Bandra-Worli sea link was inaugurated today by UPA Chairperson Sonia Gandhi, reducing the travel time between the southern part of the metropolis and its western suburbs from the present 60-90 minutes to 6-8 minutes.

The 4.8-kilometre long, eight-lane bridge will save around Rs 200-crore a year in vehicle operating cost alone.

The sea link conceived in the 1990s, would thus provide much-needed relief in the congested Mahim Causeway area which records around 1.25-lakh vehicles daily.

Work on the sea link, which has been constructed by the Ajit Gulabchand-led Hindustan Construction Company (HCC), commenced in October 2004.

The cost of illumination of the bridge would be Rs 9 crore and the height of the cable-stayed tower is equal to a 43-storey building.

- Business Standard

Filed Under: International News Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

NASA’s Moon mission successfully completes lunar maneuver

June 25, 2009 By Leave a Comment

Washington, June 24 (ANI): NASA’s Lunar Crater Observation and Sensing Satellite, or LCROSS, successfully completed its most significant early mission milestone on June 23 with a lunar swingby and calibration of its science instruments.

The satellite will search for water ice in a permanently shadowed crater at the moon’s south pole.

With the assist of the moon’s gravity, LCROSS and its attached Centaur booster rocket successfully entered into polar Earth orbit at 6:20 a.m. PDT on June 23.

The maneuver puts the spacecraft and Centaur on course for a pair of impacts near the moon’s south pole on October 9.

“The successful completion of the LCROSS swingby proves the science instruments are functioning as expected. It is a testament to the hard work and dedication of the entire team,” said Dan Andrews, LCROSS project manager at NASA’s Ames Research Center at Moffett Field, California.

“We are elated at the results from the maneuver and eagerly anticipate the impacts in early October,” he added.

During its swing by the moon, the spacecraft’s instruments were turned on and calibrated by scanning three sites on the lunar surface.

These sites were the craters Mendeleev, Goddard C and Giordano Bruno. They were selected because they offer a variety of terrain types, compositions and illumination conditions.

The spacecraft also scanned the lunar horizon to confirm its instruments are aligned in preparation for observing the Centaur’s debris plume.

“Each instrument returned good data that the science team will spend the next few weeks analyzing,” said Anthony Colaprete, LCROSS project scientist at Ames.

“These data will ensure we are as prepared as possible for monitoring and interpreting data we receive during impact,” he added.

LCROSS and its attached Centaur upper stage rocket are now in a long, looping polar orbit around Earth and the moon.

Each orbit will be roughly perpendicular to the moon’s orbit around Earth and take about 37 days to complete.

Before impact, the spacecraft and Centaur will make approximately three orbits.

LCROSS and the Centaur separately will collide with the moon at approximately 7:30 a.m. EDT on October 9, creating a pair of debris plumes that will be analyzed for the presence of water ice or water vapor, hydrocarbons and hydrated materials.

The spacecraft and Centaur are targeted to impact the moon’s south pole near the Cabeus region.

The exact target crater will be identified 30 days before impact, after considering information collected by NASA’s Lunar Reconnaissance Orbiter and observatories on Earth. (ANI)

Filed Under: Science News Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

Oz scientists closer to identify mystery light that lit up universe

June 21, 2009 By Leave a Comment

Sydney, June 21 (ANI): Scientists in Australia are getting closer to identify the mystery light that lit up the universe.

The universe was covered in a thick fog of neutral hydrogen gas thirteen billion years ago.

However, astronomers have not been able to establish what led the fog to lift, allowing the universe to be lit up.

Dr Emma Ryan-Weber, from Swinburne University in Melbourne, and colleagues hypothesized that the fog cleared when the first stars were formed.

To test that theory, they measured the amount of carbon in the early universe. Because carbon indicates the presence of giant stars, this would show how many stars there were and whether they emitted enough light to clear the fog.

The researchers found that there was not as much carbon as they had expected and therefore massive stars were not solely responsible for the universe’s illumination.

“There must have been light coming from something else such as an unknown population of quasars or carbon hidden in unobserved states,” The Sydney Morning Herald quoted Ryan-Weber as saying. (ANI)

Filed Under: Science News Tagged With: , , , , , , , , , , , , , , , , , , ,

Scientists invent world’s fastest and most sensitive astronomical camera

June 20, 2009 By Leave a Comment

Munich, June 19 (ANI): Scientists have invented the world’s fastest and most sensitive astronomical camera that can take 1500 finely exposed images per second even when observing extremely faint objects.

The first 240×240 pixel images with the world’s fastest high precision faint light camera were obtained through a collaborative effort between ESO and three French laboratories from the French Centre National de la Recherche Scientifique/Institut National des Sciences de l’Univers (CNRS/INSU).

Cameras such as this are key components of the next generation of adaptive optics instruments of Europe’s ground-based astronomy flagship facility, the ESO Very Large Telescope (VLT).

“The performance of this breakthrough camera is without an equivalent anywhere in the world. The camera will enable great leaps forward in many areas of the study of the Universe,” said Norbert Hubin, head of the Adaptive Optics department at ESO.

OCam will be part of the second-generation VLT instrument SPHERE. To be installed in 2011, SPHERE will take images of giant exoplanets orbiting nearby stars.

A fast camera such as this is needed as an essential component for the modern adaptive optics instruments used on the largest ground-based telescopes.

Telescopes on the ground suffer from the blurring effect induced by atmospheric turbulence.

This turbulence causes the stars to twinkle in a way that delights poets, but frustrates astronomers, since it blurs the finest details of the images.

Adaptive optics techniques overcome this major drawback, so that ground-based telescopes can produce images that are as sharp as if taken from space.

The new generation instruments require these corrections to be done at an even higher rate, more than one thousand times a second, and this is where OCam is essential.

Cameras normally used for very high frame-rate movies require extremely powerful illumination, which is of course not an option for astronomical cameras.

OCam and its CCD220 detector, developed by the British manufacturer e2v technologies, solve this dilemma, by being not only the fastest available, but also very sensitive, making a significant jump in performance for such cameras.

Because of imperfect operation of any physical electronic devices, a CCD camera suffers from so-called readout noise.

OCam has a readout noise ten times smaller than the detectors currently used on the VLT, making it much more sensitive and able to take pictures of the faintest of sources. (ANI)

Filed Under: Science News Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

Scientists develop microscope capable of ‘super-resolution’ video imaging

May 5, 2009 By Leave a Comment

Washington, May 5 (ANI): A team of scientists at the University of Georgia (UGA), US, has developed a microscope that is capable of live imaging at double the resolution of fluorescence microscopy using structured illumination.

The fluorescence microscope has allowed a generation of scientists to study the properties of proteins inside cells.

Yet, as human capacity for discovery has zoomed to the nanoscale, fluorescence microscopy has struggled to keep up.

The laws of physics have limited the resolution of fluorescence microscopy, whereby a fluorescent marker is used to distinguish specific proteins, to about 200 nanometers.

At this resolution significant detail is lost about the activity within a cell.

Now, the increased resolution by structured illumination is an engineering feat that will help scientists learn more about cell behavior and study mechanisms important for human disease.

“Our understanding of what is going on inside cells and our ability to manipulate them has advanced so much that it has become more and more important to see them at a better resolution,” said UGA engineer Peter Kner.

Kner built the structured illumination microscope with colleagues at the University of California, San Francisco.

This work follows on at least a decade of research building on the nearly fifty-year history of fluorescence microscopy.

The technology has been a multi-disciplinary springboard of optical engineering, chemistry and biology, in which the disciplines have all contributed to visualizing fluorescent dyes attached to proteins, advancing our understanding of cellular activity.

The importance of fluorescence microscopy was recently recognized with the 2008 Nobel Prize for Chemistry, which was awarded for the development of the green fluorescent protein (GFP), which has played a crucial role in our identification and understanding of proteins.

“What we’ve done is develop a much faster system that allows you to look at live cells expressing GFP, which is a very powerful tool for labeling inside the cell,” Kner explained.

“It would be difficult to overstate the importance of bio-imaging to ongoing research in human health,” said Dale Threadgill, director of the UGA Faculty of Engineering.

“The ability to shine a light on the leading-edge of scientific discovery will define the route to entirely new regimens of health management at the intersections of science and engineering, and Dr. Kner has joined a distinguished cadre at UGA to continue working at that interface,” he added. (ANI)

Filed Under: Science News Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

Cosmos served hot in a coffee cup!

April 15, 2009 By Leave a Comment

Washington, April 15 (ANI): A Duke University professor and his graduate student have discovered a universal principle that unites the curious interplay of light and shadow on the surface of your morning coffee with the way gravity magnifies and distorts light from distant galaxies.

According to the researchers, scientists will be able to use violations of this principle to map unseen clumps of dark matter in the universe.

Light rays naturally reflect off a curve like the inside surface of a coffee cup in a curving, ivy leaf pattern that comes to a point in the center and is brightest along its edge.

Mathematicians and physicists call that shape a “cusp curve,” and they call the bright edge a “caustic,” based on an alternative dictionary definition meaning “burning bright,” explained Arlie Petters, a Duke professor of mathematics, physics and business administration.

“It happens because a lot of light rays can pile up along curves,” he added.

Caustics show up in gravitational lensing, a phenomenon caused by galaxies so massive that their gravity bends and distorts light from more distant galaxies.

“It turns out that their gravity is so powerful that some light rays are also going to pile up along curves,” said Petters, a gravitational lensing expert.

“Mother Nature has to be creating these things. It’s amazing how what we can see in a coffee cup extends into a mathematical theorem with effects in the cosmos,” he added.

From the vantage point of Earth, the entire cosmos looks like a vast interplay of gravity and light that can extend far back into spacetime.

“As with any illumination pattern, some areas will be brighter than others. And the brightest parts will be along these caustic curves,” Petters said.

Petters and graduate student Amir Aazami extended the mathematics of relatively simple examples to include what Petters called “higher order caustics.”

In such situations, the interplay of light and gravity may extend further into spacetime and undergo various forms of “caustic metamorphosis” in the process.

Aazami was informally testing out a special case of their evolving caustics theorem called an “ellyptic umbilic” by using a technical computing software program when he noticed a pattern.

Petters realized Aazami had found a universal mathematical principle so pervasive that it can impose balance on the most complicated gravitational lensing illusions.

For one of the higher order caustics, if there are two pairs of lensed images that are close to each other but not equally bright, then the theorem is violated.

“The reason would be some substructure in the galaxy,” Petters said, likely dark matter near one of the images that causes it to be demagnified. (ANI)

Filed Under: Science News Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

How daylight can optimise environmental impact of buildings

April 5, 2009 By Leave a Comment

Washington, Apr 5 (ANI): Buildings that use daylight as the primary source of workplace illumination provide for a more comfortable, productive and healthier environment for workers, according to a research.

And keeping these benefits in mind, researchers at UNC Charlotte have made new advances in harnessing daylight in the design for commercial buildings, in order to enhance the environmental impact of these concrete structures.

“Daylighting also represents the single largest ‘new’ opportunity for energy savings in commercial lighting today and for the foreseeable future,” said Professor of Architecture Dale Brentrup.

The School of Architecture’s Daylighting + Energy Performance Laboratory at UNC Charlotte, work towards shaping and delivering daylight by architecture itself.

The lab uses two instruments to assess the impact of sky luminance and solar radiation-The Artificial Sky, which allows simulates the average overcast conditions of the Piedmont region, and a Fixed Sun Movable Earth Heliodon, which simulates actual solar penetration.

Led by Brentrup, lab staffers are trying to figure out how current practices have impacted our carbon footprint.

“Daylighting is directly related to the idea of carbon reduction. For every kilowatt hour of energy we save, we’re cutting approximately two and a half pounds of carbon dioxide emissions,” said graduate student Lindsay Frizzell, who is working on a project to quantify energy efficiency.

Although buildings can be retrofitted to be more energy efficient, Brentrup said that it’s possible to save greatest amount of energy by designing new buildings in accordance with environmentally responsible practices.

The researchers are working with the University to develop guidelines for ensuring the efficiency of new buildings. (ANI)

Filed Under: Science News Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

Viagra to boost footballers’ performance in high-altitude matches

April 5, 2009 By Leave a Comment

London, April 4 (ANI): Viagra seems to be gaining popularity among footballers, with a club deciding to give its players the impotence pill to help them play better in high-altitude cup matches.

Brazilian side Gremio has plans to use Viagra when they take on Bolivian teams, who have grounds up to 2,500 metres above sea level, in the Copa Libertadores.

Given that Viagra improves blood circulation, the club believes that it may boost the players’ performance.

“I had this illumination reading a magazine. We did a scientific test,” the Sun quoted club doc Alarico Endres as saying. (ANI)

Filed Under: Uncategorized Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

Shadows of Saturn’s moons onto its rings signal approach of equinox

March 24, 2009 By Leave a Comment

Washington, March 24 (ANI): Images taken by the cameras of NASA’s Cassini spacecraft have captured, for the first time, the shadows of Saturn’s moons cast onto its broad expanse of rings, which signals the approach of a phase known as equinox.

Like Earth and most of the other planets, Saturn’s spin axis is tilted relative to its motion around the Sun.

This condition results in the cyclical passage of the Sun, seen from Saturn, from the southern hemisphere to the north and back again, and the full sweep of seasonal changes on Saturn and its rings and moons, over the course of Saturn’s year, equal to 29.5 Earth years.

Thus, about every 15 Earth years, or half-Saturn-year, the Sun passes through the plane containing the planet’s rings.

During these times, the shadows of the planet’s rings fall in the equatorial region on the planet, and the shadows of Saturn’s moons external to the rings, especially those whose orbits are inclined with respect to the equator, begin to intersect the planet’s rings.

When this occurs, the equinox period has essentially begun, and any vertical protuberances within the rings, including small embedded moons and narrow vertical warps in the rings, will also cast shadows on the rings.

At exactly the moment of equinox, the shadows of the rings on the planet will be confined to a thin line around Saturn’s equator and the rings themselves will go dark, being illuminated only on their edge.

The onset of this novel geometry begins with the appearance of the shadows of Saturn’s moons on the icy platform of its rings.

The next equinox on Saturn, when the Sun will pass from south to north, is August 11, 2009.

Because of these unique illumination circumstances, Cassini imaging scientists have been eager to observe the planet and its rings around the time of equinox, and Cassini’s first extended mission, which began on July 1, 2008, and extends to September 30, 2010, was intended to gather observations during this time.

Eventually, more moons will cast shadows on the rings and all shadows will grow longer as exact equinox approaches.

The shadows will be their longest just before and just after equinox when the Sun exactly crosses the ring plane on Aug. 11, 2009.

According to Carolyn Porco, leader of the Cassini imaging team in Boulder, Colorado, “One of the best things about being in orbit around Saturn are those mind-expanding opportunities that arise every now and again to see some celestial phenomenon you couldn’t possibly see here on Earth.” (ANI)

Filed Under: Science News Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,

Unlimited information storage may soon be a reality

January 26, 2009 By Leave a Comment

London, Jan 26 (ANI): Researchers at Stanford University in Palo Alto, California, have used a feature of the electron to create holograms that pack information into subatomic spaces, which could one day lead to unlimited information storage.

“Our results will challenge some fundamental assumptions people had about the ultimate limits of information storage,” graduate student Chris Moon, one of the authors of the work, told Nature News.

The research team at Stanford University used a feature of the electron – its tendency to bounce probabilistically between different quantum states – to create holograms that pack information into subatomic spaces.

By encoding information into the electron’s quantum shape, or wave function, the researchers were able to create a holographic drawing that contained 35 bits per electron.

Compared to previous technologies, Moon and his colleagues saw a way to go smaller by using a quantum analogy to the conventional hologram.

They used the quantum properties of electrons, rather than photons, as their source of ‘illumination’.

Using a scanning tunnelling microscope, they stuck carbon monoxide molecules onto a layer of copper – their holographic plate. The molecules were positioned to create speckled patterns that would result in a holographic ‘S’.

The sea of electrons that exists naturally at the surface of the copper layer served as their illumination.

Just as water bouncing off stones in a show pond create a rippling wave patterns, these electrons interfere with the carbon monoxide molecules to create a quantum hologram.

The researchers read the hologram using the microscope to measure the energy state of a single electron wave function. They showed they could read out an ‘S’ – for Stanford – with features as small as 0.3 nanometers.

In addition to breaking the atomic limit for information storage, the researchers demonstrated one of the essential features of holography.

They stacked two layers, or pages, of information – in this case, an ‘S’ and a ‘U’ – within the same hologram. They teased out the individual pages by scanning the hologram for electrons at different energy levels.

This led the Stanford team to think about the creation of quantum circuits.

In encoding the ‘S’, the researchers were concentrating the electron density at certain points and energy levels, and a concentration of electrons in space is, in essence, a wire.

That led study co-author Hari Manoharan to think about using the holograms as stackable quantum circuits, which may eventually be needed to wire together a quantum computer. (ANI)

Filed Under: Science News Tagged With: , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , , ,