Category Technology/Electronics

Record Distance for Alternative Super Current

Electron microscope image of a chromium dioxide devices based on wires. The green wire is the chromium dioxide ferromagnet. The orange wires are superconductors and are necessary to produce a superconducting current through the green wire.

Electron microscope image of a chromium dioxide devices based on wires. The green wire is the chromium dioxide ferromagnet. The orange wires are superconductors and are necessary to produce a superconducting current through the green wire.

Electrons that spin synchronously around their axis, turn out to stay superconductive across large distances within magnetic chrome dioxide. Electric current from these electrons can flip small magnets, and its superconductive version could form the basis for a hard drive without energy loss...

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Using Pectin to Advance Neuron-like Electronic Systems

image of FIG. 1.

Most of us know pectin as a key ingredient for making delicious jellies and jams, not as a component for a complex hybrid device that links biological and electronic systems. But a team of Italian scientists have built on previous work using pectin with a high degree of methylation as the medium to create a new architecture of hybrid device with a double-layered polyelectrolyte that alone drives memristive behavior. A memristive device is a synapse analogue, a device that has a memory. Its behavior in a certain moment depends on its previous activity, similar to the way information in the human brain is transmitted from one neuron to another.

“In this research, we applied materials generally used in the pharmaceutical and food industries in our electrochemical devices,” said Angelica Cifa...

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Breakthrough in the Quantum Transfer of Information between Matter and Light

New research is paving the way to producing quantum communications networks. (stock image) Credit: © agsandrew / Fotolia

New research is paving the way to producing quantum communications networks. (stock image) Credit: © agsandrew / Fotolia

From stationary to flying qubits at speeds never reached before….This feat, achieved by a team from Polytechnique Montréal and France’s Centre national de la recherche scientifique (CNRS), brings us a little closer to the era when information is transmitted via quantum principles. The creation of a qubit in zinc selenide, a well-known semi-conductor material, made it possible to produce an interface between quantum physics that governs the behaviour of matter on a nanometre scale and the transfer of information at the speed of light, thereby paving the way to producing quantum communications networks.

In quantum physics, single electrons can take the value of 0, 1 or...

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First Random Laser Made of Paper-based Ceramics

The team used conventional laboratory filter paper as a structural template due to its long fibers and the stable structure. Credit: Institute for Complex Systems /Rome

The team used conventional laboratory filter paper as a structural template due to its long fibers and the stable structure. Credit: Institute for Complex Systems /Rome

A team has built the first controllable random laser based on cellulose paper in Straubing. Hence, materials no longer need to be artificially outfitted with disordered structures, utilizing naturally occurring ones instead. Material synthesis that is inspired by biology is an area of research at TUM’s Chair of Biogenic Polymers at Straubing Center of Science. It utilizes models from nature and biogenic materials to develop new materials and technologies.

Two components are necessary for a laser: First of all, a medium which amplifies light. And secondly, a structure which retains the light in the medium...

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