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Archive for the ‘electronics’ category: Page 28

Aug 31, 2022

Starlink suffered a global outage overnight

Posted by in categories: electronics, internet

Starlink TV went down for users across the global from about 3AM ET to 7AM ET with the service still suffering from speed degradations.

Aug 27, 2022

Nanogap Electrodes towards Solid State Single‐Molecule Transistors

Posted by in categories: computing, electronics

Circa 2015 face_with_colon_three


Molecular Electronics: Nanogap Electrodes towards Solid State Single-Molecule Transistors (Small 46/2015)

Ajuan Cui, Huanli Dong, Wenping Hu.

Continue reading “Nanogap Electrodes towards Solid State Single‐Molecule Transistors” »

Aug 26, 2022

#eNeuro: Researchers at University of Washington reveal a novel mode of regulating Cav2.1 channels by high-affinity Ca2+ sensor protein Syt-7 through direct interaction with Cav2.1 channels at their ‘synprint’ site

Posted by in category: electronics

Aug 26, 2022

Please, Lego, let this engineer bring your computer brick to life

Posted by in categories: computing, electronics

James Brown has brilliantly brought classic Lego computer bricks to life by outfitting them with a tiny OLED screen, processor, battery contacts and more.

Aug 22, 2022

It could take 20 more years for scientists to truly understand color

Posted by in category: electronics

Our current color theory has been wrong for 100 years, and getting it right could have huge implications for electronics, textiles, paints, and even the planet,…

Aug 20, 2022

Computer made from liquid crystals would ripple with calculations

Posted by in categories: computing, electronics

Liquid crystals consist of rod-shaped molecules that slosh around like a fluid, and in those that are nematic the molecules are mostly parallel to each other. For devices like TV screens, the odd molecule that faces the wrong way has to be removed during the manufacturing process, but these defects are key for building a liquid crystal computer, says Kos.

In ordinary computers, information is stored as a series of bits, electronic versions of 1s and 0s. In Kos and Dunkel’s liquid crystal computer, the information would instead be translated into a series of defective orientations. A liquid crystal defect could encode a different value for every different degree of misalignment with other molecules.

Electric fields could then be used to manipulate the molecules to perform basic calculations, similar to how simple circuits called logic gates work in an ordinary computer. Calculations on the proposed computer would appear as ripples spreading through the liquid.

Aug 18, 2022

Raymond Damadian, Creator of the First M.R.I. Scanner, Dies at 86

Posted by in categories: electronics, innovation

Incensed when two others won the Nobel Prize for the science behind the invention, he took out a newspaper ad that called his exclusion a “shameful wrong that must be righted.”

Aug 16, 2022

Team reports giant response of semiconductors to light

Posted by in categories: electronics, materials

In an example of the adage “everything old is new again,” MIT engineers report a new discovery in semiconductors, well-known materials that have been the focus of intense study for over 100 years thanks to their many applications in electronic devices.

The team found that these important materials not only become much stiffer in response to light, but the effect is reversible when the light is turned off. The engineers also explain what is happening at the atomic scale, and show how the effect can be tuned by making the materials in a certain way—introducing specific defects—and using different colors and intensities of light.

“We’re excited about these results because we’ve uncovered a new scientific direction in an otherwise very well-trod field. In addition, we found that the phenomenon may be present in many other compounds,” says Rafael Jaramillo, the Thomas Lord Associate Professor of Materials Science and Engineering at MIT and leader of the team.

Aug 15, 2022

Scientists Found a Way to Turn Your Body Into a Battery … With Your Clothes

Posted by in categories: electronics, energy

Batteries provide energy to electronic devices. Your body generates and uses energy. Ergo, you’re basically a battery.

As you run, walk, or even breathe, your body is moving. A system fine-tuned enough to collect and store that output can transpose it into energy for the electronics we carry with us everyday. The obvious substrate in which to build such a system is our clothes, since they move along with us.

But without a series of wires or magnetic coils, how can cotton, wool, polyester, or even leather garments collect, store, and transport electricity? A team at Nanyang Technological University (NTU) in Singapore thinks it has the answers to finally harness your inner generator—and keep you from needing to borrow a charging cord.

Aug 14, 2022

Visual-Inertial Multi-Instance Dynamic SLAM with Object-level Relocalisation

Posted by in categories: electronics, mapping

Simultaneous Localisation and Mapping (SLAM) is a task of simultaneously estimating the sensor pose as well as the surrounding scene geometry. However, most existing SLAM systems are designed for the static world, which is unrealistic.

A recent paper on arXiv.org proposes a robust object-level dynamic SLAM system.

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