Science

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Fast magnetic writing of data

For almost seventy years now, magnetic tapes and hard disks have been used for data storage in computers. In spite of many new technologies that have been developed in the meantime, the controlled magnetization of a data storage medium remains the first choice for archiving information because of its longevity and low price. As a means of realizing random access memories (RAMs), however, which are used as the main memory for processing data in computers, magnetic storage technologies were long considered inadequate. That is mainly due to its low writing speed and relatively high energy consumption.

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In 1956, IBM introduced the first magnetic hard disc, the RAMAC. ETH researchers have now tested a novel magnetic writing technology that could soon be used in the main memories of modern computers.

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High-speed quantum memory for photons

Physicists from the University of Basel have developed a memory that can store photons. These quantum particles travel at the speed of light and are thus suitable for high-speed data transfer. The researchers were able to store them in an atomic vapor and read them out again later without altering their quantum mechanical properties too much. This memory technology is simple and fast and it could find application in a future quantum Internet.

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Single photons transmit quantum information between the network nodes, where they are stored in an atomic gas.

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Bit data goes anti-skyrmions

Today's world, rapidly changing because of "big data", is encapsulated in trillions of tiny magnetic objects - magnetic bits - each of which stores one bit of data in magnetic disk drives. A group of scientists from the Max Planck Institutes in Halle and Dresden have discovered a new kind of magnetic nano-object in a novel material that could serve as a magnetic bit with cloaking properties to make a magnetic disk drive with no moving parts - a Racetrack Memory - a reality in the near future.

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These are anti-skyrmions on a racetrack.

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A revolution in lithium-ion batteries is becoming more realistic

The modern world relies on portable electronic devices such as smartphones, tablets, laptops, cameras or camcorders. Many of these devices are powered by lithium-ion batteries, which could be smaller, lighter, safer and more efficient if the liquid electrolytes they contain were replaced by solids.

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Lithium amide-borohydride is a promising candidate for a solid electrolyte. The crystalline structure of this material consists of two sub-lattices, shown in different colors. Under appropriate conditions, lithium ions (red), normally found in the elementary cells of only one sub-lattice (yellow), move to the empty cells of the second sub-lattice (blue) where they can freely propagate.

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Astronomers Find New Evidence for Long-theorized Mid-sized Black Holes

Astronomers have found new evidence for the existence of a mid-sized black hole, considered the missing link in the evolution of supermassive black holes.

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ALMA Finds Huge Hidden Reservoirs of Turbulent Gas in Distant Galaxies

First detection of CH+ molecules in distant starburst galaxies provides insight into star formation history of the Universe

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ALMA has been used to detect turbulent reservoirs of cold gas surrounding distant starburst galaxies. By detecting CH+ for the first time in the distant Universe this research opens up a new window of exploration into a critical epoch of star formation. The presence of this molecule sheds new light on how galaxies manage to extend their period of rapid star formation.

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Best Ever Image of a Star’s Surface and Atmosphere

First map of motion of material on a star other than the Sun

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Using ESO’s Very Large Telescope Interferometer astronomers have constructed the most detailed image ever of a star — the red supergiant star Antares. They have also made the first map of the velocities of material in the atmosphere of a star other than the Sun, revealing unexpected turbulence in Antares’s huge extended atmosphere.

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Millions Across US Watch Total Solar Eclipse

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The moon is seen blotting out 81 percent of the sun during a solar eclipse in Washington, D.C., Monday, Aug. 21, 2017.

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Gold nanostars and immunotherapy vaccinate mice against cancer: New treatment cures, vaccinates mouse in small proof-of-concept study

By combining an FDA-approved cancer immunotherapy with an emerging tumor-roasting nanotechnology, Duke University researchers improved the efficacy of both therapies in a proof-of-concept study using mice.

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A gold nanostar under an electron microscope. The nanostar's size causes it to accumulate within tumors, where researchers use infrared light to heat it and destroy cancerous growths.

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Silk could improve sensitivity, flexibility of wearable body sensors

Silkworm silk, with five thousand years' usage history, is a popular natural material for clothes or wearing accessories. In this talk, I will present our work on exploring the application of silk in flexible electronics. The development of flexible electronics and equipment attracts significant interests in recent years. Low-dimensional carbon materials are one kind of ideal materials for flexible electronics. It is of great importance to explore low cost and scalable preparation approaches for high performance flexible carbon materials-based wearable electronics. We demonstrated that carbonized silk fabric with a plain-weave structure, based on its unique N-doped graphitic carbon nanostructure and the macroscale woven structure, could be worked as strain sensors with both of high sensitivity (gauge factor of 9.6 in the strain range of 0%-250% and 37.5 in the range of 250%-500%) and high tolerable strain (more than 500%). The as-obtained sensors have fast response (<30 ms) and high durability (>10,000 cycles). It was demonstrated that such strain sensors could be used for monitoring both of vigorous human motions (such as jumping, marching, jogging, bending and rotation of joints), subtle human motions (such as pulse, facial expression, respiration and phonation) and even sound, and further demonstrated the capture and reconstruction of human body movements with our sensors, showing their superior performance and tremendous potential applications in wearable electronics and intelligent robots. In addition, transparent electronics skins based on graphene, carbon nanotubes, and silk nanofibers will be demonstrated.

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Silk could soon be used to produce more sensitive and flexible body sensors like this one.