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Chipset maker Qualcomm Technologies has introduced a virtual reality (VR) software development kit (SDK) targeting VR-capable Android smartphone and headset makers.

The Snapdragon VR SDK offers access to optimized VR features, to simplify development and to help developers with attain improved VR performance and power efficiency with the Snapdragon 820 for Android smartphones and upcoming VR headsets.

Qualcomm will be offering the SDK in the second quarter of 2016 through the Qualcomm Developer Network.

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“One small step for man, one giant leap for mankind.”

When Neil Armstrong stepped onto the dusty surface of the moon on July 20, 1969, it was a victory for NASA and a victory for science.

Backed by billions and led by NASA, the Apollo project is hardly the only government-organized science initiative to change the world. Two decades earlier, the Manhattan Project produced the first atomic bomb and restructured modern warfare; three decades later, the Human Genome Project published the blueprint to our DNA, heralding the dawn of population genomics and personalized medicine.

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Another great invention by the folks from Australia.


Researchers said they developed the new thinnest lens in the world. Made from a crystal called molybdenum disulphide, the new lens is 2,000 thinner than a human hair and can revolutionize the field of nanotechnology. (Photo : Gerd Altmann | Pixabay)

A team of Australian scientists said they have developed the thinnest lens in the world. The new 6.3-nanometer lens, which is 2,000 times thinner than a human hair, can lead to novel advances in medicine and science which could revolutionize nanotechnology.

Putting that in perspective, the previous thinnest lens was 50 nanometers thick. The new world’s thinnest lens was created by a team of scientists lead by The Australian National University’s Dr. Yuerui ‘Larry’ Lu.

Abstract: Since the 17th century, science was intrigued by the nature of light. Isaac Newton was certain that it consists of a stream of particles. His contemporary Christiaan Huygens, however, argued that light is a wave. Modern quantum physics says that both were right. Light can be observed both as particles and as waves — depending which characteristic is measured in an experiment, it presents itself more as one or the other. This so-called wave-particle dualism is one of the foundational principles of quantum physics. This questions our common sense: can one and the same indeed be of two contradictory natures at the same time?

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Lens regeneration in monkeys after minimally invasive surgery. Slit-lamp microscopy showed regenerating lens tissue grew from the peripheral to the central lens in a circular symmetrical pattern 2–3 months after surgery, reaching the center at 5 months post-surgery; direct illumination showed that the visual axis remained translucent. (credit: Haotian Lin et al./Nature)

Researchers at University of California, San Diego School of Medicine and Shiley Eye Institute, with colleagues in China, have developed an eye lens restoration treatment that has been tested in monkeys and in a small human clinical trial. It produced much fewer surgical complications than the current standard-of-care and resulted in regenerated lenses with superior visual function in all 12 of the pediatric cataract patients who received the new surgery.

Congenital cataracts — lens clouding that occurs at birth or shortly thereafter — is a significant cause of blindness in children.

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Researchers in the US have proposed a new form of wind power: small, artificial, mechanical trees capable of producing energy from their vibrations. Working with the natural breeze, or small movements caused by other factors, the scientists hope that new forms of renewable energy can be developed in the future.

The idea is to create a device that can convert random forces – whether that’s from the footfall of pedestrians on a bridge, or a passing gust of wind – into electricity that can be used to power devices. And the researchers have found that tree-like structures made from electromechanical materials are perfect for the task.

“Buildings sway ever so slightly in the wind, bridges oscillate when we drive on them and car suspensions absorb bumps in the road,” said project leader Ryan Harne from Ohio State University. “In fact, there’s a massive amount of kinetic energy associated with those motions that is otherwise lost. We want to recover and recycle some of that energy.”

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