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Category: energy

As even casual Star Wars fans will know, lightsabers are probably the coolest weapon ever to make an appearance on the big screen. Lightsaber fights are so elegant that they are almost hypnotic and, even though not all of us might have a strong enough flow of Force running through our veins, a lightsaber in the right hand is by far the deadliest weapon to be found in the universe.

The idea behind a lightsaber is simple genius: a light-weight and immensely powerful tool that uses a blade of energy to not only slice up disciples of the Dark Side in a single blow but also act as an effective shield against laser blasts. So why don’t we have working lightsabers in real life? Surely physicists must be smart enough (and big enough Star Wars fans) to be able to produce one of these incredible objects.

The obvious way of building a lightsaber would be to use a laser, which can be seen as a particularly bright and directional burst of light. But even though laser technology is continuously striding towards more efficient and practical machines, we are still miles away from a working lightsaber. Let’s see why.

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The combined company, with big footprints in both the fast-growing commercial aerospace business and an increase in military spending, may be emboldened to push back on big customers like Boeing, Airbus and Lockheed Martin in terms of pricing, aftermarket work and intellectual property.

United Technologies has struck a deal to combine its booming aerospace business with defense contractor Raytheon, a surprise twist capable of rattling customers and competitors alike.

The deal would create a giant, one-stop shop with products that range from Tomahawk missiles and radar systems to jet engines that power passenger planes and the seats that fill them.

Under one roof, the companies could put more pressure on suppliers and encourage their industrial conglomerate competitors to seek deals of their own.

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THE PHOTONIC FENCE:

Laser Insect Monitoring and Eradication.

The Photonic Fence is poised to revolutionize response to and monitoring of harmful insect incursions in agriculture, hospitality, government, military and residential pest control markets.

The Photonic Fence monitors insects in flight and eliminates those identified as targets by shooting them down with a micro-burst of laser energy. The Photonic Fence also holds the potential to create entirely new methods of entomological study.

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TOKYO — Toyota is ramping up electric vehicle deployment plans, pulling forward its goal of selling 5.5 million electrified vehicles by five years and aiming to develop a solid-state battery by next summer as it races to meet a “sudden surge” of EV popularization.

Toyota now aims to sell some 5.5 million traditional gasoline-electric hybrids, plug-in hybrids, EVs and hydrogen fuel cell vehicles by 2025. Nearly 1 million of them could be pure EVs.

Executive Vice President Shigeki Terashi, Toyota’s r&d chief, outlined the new roadmap in a June 7 briefing about the company’s EV plans. In December 2017, the company had said it wanted to sell that many electrified vehicles by 2030, five years later than the revised outlook.

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This pugnacious antipathy toward scientists, research funding and universities threatens to undercut the very advantages that have made the U.S. such a dominant technological power over the last century. Just as Hasan Ibn al-Haytham’s achievements draw a sharp contrast with the Middle East’s current lagging position in science, sepia-colored nostalgia for Isaac Newton will ring bitterly hollow if the West turns away from Newton’s legacy. A civilization is only as great as its last failure.

It’s absurd to claim otherwise — especially now, as America turns away from Newton’s legacy.

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Wearable devices that harvest energy from movement are not a new idea, but a material created at Rice University may make them more practical.

The Rice lab of chemist James Tour has adapted laser-induced graphene (LIG) into small, metal-free devices that generate electricity. Like rubbing a balloon on hair, putting LIG composites in contact with other surfaces produces that can be used to .

For that, thank the triboelectric effect, by which gather a charge through contact. When they are put together and then pulled apart, surface charges build up that can be channeled toward .

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LOS ANGELES (AP) — A transportation company is betting its sleek new hydrogen-powered electric flying vehicles will someday serve as taxis, cargo carriers and ambulances of the sky, but experts say they will have to clear a number of regulatory hurdles before being approved for takeoff years in the future.

With six rotors on the roof and seats inside for five people, a passenger model of the Skai (pronounced “sky”) unveiled Wednesday near Los Angeles resembles an oversized drone crossed with a luxury SUV.

Like a drone, the vehicle from Alaka’i Technologies takes off and lands vertically. It’s one of many similar electric flying crafts in production, including prototypes from Boeing and Airbus that made successful test flights this year, according to Vertical Flight Society, an industry group.

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The science exhibition, which goes by the name “Vigyan Samagam”, will highlight India’s contributions to some of the world’s biggest science projects. It is a jointly-funded effort by the Department of Atomic Energy (DAE) and the Department of Science & Technology (DST).

While in India, the CERN exhibit will be bilingual — in English and Hindi for the public to make the most of.

Accelerating Science_CERN

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What if the wood your house was made of could save your electricity bill? In the race to save energy, using a passive cooling method that requires no electricity and is built right into your house could save even chilly areas of the US some cash. Now, researchers at the University of Maryland and the University of Colorado have harnessed nature’s nanotechnology to help solve the problem of finding a passive way for buildings to dump heat that is sustainable and strong.

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